One major problem is the high mortality of calves due to feed shortages during the dry season. To overcome this problem, it needs feeding strategies based on local resources that can be provided by farmers. The purpos...One major problem is the high mortality of calves due to feed shortages during the dry season. To overcome this problem, it needs feeding strategies based on local resources that can be provided by farmers. The purpose of this study was to determine body weight gain (BWG) of post weaning Bali cattle fed with legume. The study was conducted in experimental garden Lili, Kupang and designed with completely randomized design (CRD) 4 × 5; four kinds of legumes were used as treatment, such as: (1) Centrosema pascuorum; (2) Clitoria ternatea; (3) Desmodium sp.; (4) Leucaena leucocephala. Cattles used as the subject were separated into five groups based on body weight as the replication. The experimental data was tabulated and analyzed by covariance analysis (GenStat) and financial analysis (for analyzing revenue and real cost during the study). The result shows that legume feeding of Leucaena leucocephala at the second, fifth, eighth and ninth week have no significant effect (P 〈 0.05) to BWG, but shows significant effect (P 〈 0.05) to BWG at the fourth week. The feeding of Centrosema pascuorum, Clitoria ternatea, Desmodium sp. and Leucaena leucocephala to post weaning Bali cattle showed higher feed consumption and higher BWG, especially in Leucaena leucocephala treatment. Feeding legume to post weaning Bali cattle is also economically profitable (return/cost (R/C) ratio 〉 1).展开更多
Introduction: Cattle are strong animals very often used in agriculture in rural Africa. Unpredictable in their behavior, they regularly inflict injuries to farmers, some of whom are children in rural Africa. Objective...Introduction: Cattle are strong animals very often used in agriculture in rural Africa. Unpredictable in their behavior, they regularly inflict injuries to farmers, some of whom are children in rural Africa. Objective: The purpose of this study was to describe the clinical, therapeutic and evolutionary aspects of abdominal trauma caused by bovidae to children on farms in Burkina Faso. Patients and Method: This is a descriptive study covering the period from January 2014 through December 2016 and was conducted in the General Surgery Unit of the Tenkodogo Regional Hospital in Burkina Faso. It included all patients under the age of 17, victims of abdominal trauma by cattle on farms. Result: A total of 68 patients were identified, which is 3% of all patients under 17 admitted to the service during the same period. The average age of patients was 10.5 years, with a standard variation of 3.6 years. The majority (73.5%) of the patients were boys. The main lesional mechanisms found were horn strokes (88.2%). We noted 35 eviscerations without visceral perforation, 15 intestinal perforations, 6 hepatic wounds and 5 splenic wounds. In 7 cases, there were non-penetrating wounds. All patients underwent surgical intervention under anesthesia. The average length of hospital was 6 days. Two deaths were recorded, making a mortality rate of 3%. Conclusion: Abdominal traumas of the child by attack of cattle are frequent during farm works in rural Burkina Faso. The injuries are sometimes serious. Wearing protective equipment for children should be considered during farm work.展开更多
Structural variations(SVs≥50 bp)are a critical but underexplored source of genetic diversity in cattle,shaping traits vital for productivity,adaptability,and health.Advances in long-read sequencing,pangenome graph co...Structural variations(SVs≥50 bp)are a critical but underexplored source of genetic diversity in cattle,shaping traits vital for productivity,adaptability,and health.Advances in long-read sequencing,pangenome graph construction,and near-complete genome assemblies now allow accurate SV detection and genotyping.These innovations overcome the limitations of single-reference genomes,enabling the discovery of complex SVs,including nested and overlapping variants,and providing access to previously inaccessible genomic regions such as centromeres and telomeres.This review highlights the current landscape of cattle SV research,with emphasis on integrating longread sequencing and pangenome frameworks to uncover breed-specific and population-level variation.While many SVs are linked to economically important traits such as feed efficiency and disease resistance,their broader regulatory impacts remain an active area of investigation.Emerging functional genomics approaches,including transcriptomics,epigenomics,and genome editing,will clarify how SVs influence gene regulation and phenotype.Looking forward,the integration of SV catalogs with multi-omics data,imputation resources,and artificial intelligence-driven models will be essential for translating discoveries into breeding and conservation applications.Integrating structural variants into breeding pipelines promises to revolutionize livestock genomics,enabling precision selection and sustainable agriculture despite challenges in cost,data sharing,and functional validation.展开更多
Background The enteric methane inhibitor 3-nitrooxypropanol(3-NOP)inhibits the key enzyme in ruminal methanogenesis,but whether short-term(ST)and long-term(LT)dietary supplementation has similar effects on rumen micro...Background The enteric methane inhibitor 3-nitrooxypropanol(3-NOP)inhibits the key enzyme in ruminal methanogenesis,but whether short-term(ST)and long-term(LT)dietary supplementation has similar effects on rumen microbiota in beef cattle and how microbes change after 3-NOP withdrawal have not been studied.This study investigated changes in rumen bacteria,archaea,and protozoa after ST and LT dietary supplementation and removal of 3-NOP using metataxonomic analysis.Results A total of 143 rumen samples were collected from two beef cattle studies with 3-NOP supplementation.The ST study(95 samples)used eight ruminally cannulated beef cattle in a 4×4 Latin square design with four 28-d of 3-NOP treatments[mg/kg of dry matter(DM)]:control:0,low:53,med:161,and high:345.The LT study(48 samples)was a completely randomized design with two 3-NOP treatments[control:0,and high:280 mg/kg of DM)fed for 112-d followed by a 16-d withdrawal(without 3-NOP).Bacterial and archaeal communities were significantly affected by 3-NOP supplementation but limited effects on protozoal communities were observed.Under ST supplementation,the relative abundances of Prevotella,Methanobrevibacter(Mbb.)ruminantium,Methanosphaera sp.ISO3-F5,and Entodinium were increased(Q<0.05),whereas those of Mbb.gottschalkii and Epidinium were decreased(Q<0.05)with 3-NOP supplementation.In LT study,relative abundances of Mbb.ruminantium,and Methanosphaera sp.Group5 were increased(Q<0.05),while those of Saccharofermentans and Mbb.gottschalkii were decreased(Q<0.05)with 3-NOP supplementation.Comparison between 3-NOP supplementation and the withdrawal revealed increased relative abundances of Clostridia UCG-014 and Oscillospiraceae NK4A214 group and decreased those of Eubacterium nodatum group and Methanosphaera sp.Group5(P<0.05)after 3-NOP withdrawal.Further comparison of rumen microbiota between control and 3-NOP withdrawal showed significantly higher(P=0.029)relative abundances of Eggerthellaceae DNF00809,p-1088-a5 gut group,and Family XII UCG-001 in control group while no significant differences were detected for archaea and protozoa.Microbial network analysis revealed that microbial interactions differed by both 3-NOP dose and durations.Conclusions Both ST and LT supplementation affected overall rumen microbial profile,with individual microbial groups responded to 3-NOP supplementation differently.After 3-NOP withdrawal,not all microbes showed recovery,indicating that the 3-NOP driven shifts were only partially reversible.These findings provide an understanding of the effects of 3-NOP on rumen microbial communities and their adaptability to methane mitigation strategies.展开更多
Background Exosomes are crucial mediators of intercellular communication.As a key component of milk,milkderived exosomes are abundant in genetic cargo,particularly micro RNAs(mi RNAs),indicating their potential role i...Background Exosomes are crucial mediators of intercellular communication.As a key component of milk,milkderived exosomes are abundant in genetic cargo,particularly micro RNAs(mi RNAs),indicating their potential role in regulating mammary gland physiology.Therefore,this study aimed to investigate the specificity of mi RNAs in milkderived exosomes and their regulatory roles in lipid synthesis in bovine mammary epithelial cells(BMECs).Results Based on 17,838 DHI records showing a significantly higher milk fat percentage(MFP)in late lactation(4.24%±1.07%),10 high-(5.96%±0.26%,HMF)and 10 low-MFP(1.68%±0.23%,LMF)cows were selected during this stage for milk-derived exosome isolation and mi RNA profiling.Exosomes isolated via differential ultracentrifugation were verified as 50-150 nm vesicles expressing CD9,CD81,and TSG101.mi RNA sequencing identified 1,320 differentially expressed mi RNAs(496 upregulated and 824 downregulated)between the HMF_EXO and LMF_EXO groups.Uptake assays confirmed that BMECs internalized these exosomes,and q RT-PCR validation showed that mi R-423-5p and mi R-125b were significantly upregulated and downregulated in HMF_EXO-and LMF_EXO-treated BMECs,respectively.Functionally,exosomal mi R-423-5p promoted intracellular lipid accumulation and TG synthesis in BMECs by targeting APOA5,whereas mi R-125b inhibited lipolysis and fatty acid oxidation by repressing SLC27A1.Conclusions This study demonstrates that milk-derived exosomal mi RNAs represent a novel mechanism for regulating milk fat synthesis.Specifically,mi R-423-5p and mi R-125b directly modulated lipid metabolism in BMECs via the mi R-423-5p/APOA5 and mi R-125b/SLC27A1 pathways.These findings provide new insights into the molecular regulation of milk fat synthesis and highlight the importance of exosome-mediated intercellular communication in the lactating mammary gland.展开更多
Background The gayal(Bos frontalis),a semi-domesticated bovine species,demonstrates exceptional adaptability to lignocellulose-rich diets dominated by bamboo,suggesting the presence of a specialized gastrointestinal m...Background The gayal(Bos frontalis),a semi-domesticated bovine species,demonstrates exceptional adaptability to lignocellulose-rich diets dominated by bamboo,suggesting the presence of a specialized gastrointestinal microbiome.However,the functional mechanisms underlying this host-microbiome interaction remain poorly understood.Here,we conducted integrated metagenomic and metatranscriptomic analyses of rumen,cecum,and colon digesta from yellow cattle and gayal raised on the same bamboo-based high-fiber diet.Results The results showed that gayal exhibited superior fiber-degrading capacity relative to yellow cattle,evidenced by significantly higher(P<0.05)fiber digestibility,cellulase and xylanase activities,and increased volatile fatty acids production despite identical feed intake.Microbial community analysis revealed distinct composition in both the rumen and hindgut of gayal compared to yellow cattle,with notable enrichment of taxa specialized in lignocellulose degradation.Metatranscriptomic profiling further identified upregulation of key lignin-modification enzymes,particularly AA6,AA2,and AA3,primarily encoded by Prevotella,Cryptobacteroides,Limimorpha,and Ventricola.These enzymes are known to modify lignin structure to increase polysaccharide accessibility.These results demonstrate that gayal hosts a unique and metabolically active gastrointestinal microbiome capable of efficient lignocellulose deconstruction through a coordinated enzymatic cascade,especially effective in dismantling lignin barriers.Conclusions This study provides novel insights into host-microbiome co-adaptation to fibrous feeds and highlights the potential of gayal-derived microbial consortia and enzymes for improving roughage utilization in ruminant agriculture.展开更多
Background India harbors the world’s largest cattle population,encompassing over 50 distinct Bos indicus breeds.This rich genetic diversity underscores the inadequacy of a single reference genome to fully capture the...Background India harbors the world’s largest cattle population,encompassing over 50 distinct Bos indicus breeds.This rich genetic diversity underscores the inadequacy of a single reference genome to fully capture the genomic landscape of Indian cattle.To comprehensively characterize the genomic variation within Bos indicus and,specifically,dairy breeds,we aim to identify non-reference sequences and construct a comprehensive pangenome.Results Five representative genomes of prominent dairy breeds,including Gir,Kankrej,Tharparkar,Sahiwal,and Red Sindhi,were sequenced using 10X Genomics‘linked-read’technology.Assemblies generated from these linked-reads ranged from 2.70 Gb to 2.77 Gb,comparable to the Bos indicus Brahman reference genome.A pangenome of Bos indicus cattle was constructed by comparing the newly assembled genomes with the reference using alignment and graph-based methods,revealing 8 Mb and 17.7 Mb of novel sequence respectively.A confident set of 6,844 Non-reference Unique Insertions(NUIs)spanning 7.57 Mb was identified through both methods,representing the pange-nome of Indian Bos indicus breeds.Comparative analysis with previously published pangenomes unveiled 2.8 Mb(37%)commonality with the Chinese indicine pangenome and only 1%commonality with the Bos taurus pange-nome.Among these,2,312 NUIs encompassing~2 Mb,were commonly found in 98 samples of the 5 breeds and des-ignated as Bos indicus Common Insertions(BICIs)in the population.Furthermore,926 BICIs were identified within 682 protein-coding genes,54 long non-coding RNAs(lncRNA),and 18 pseudogenes.These protein-coding genes were enriched for functions such as chemical synaptic transmission,cell junction organization,cell-cell adhesion,and cell morphogenesis.The protein-coding genes were found in various prominent quantitative trait locus(QTL)regions,suggesting potential roles of BICIs in traits related to milk production,reproduction,exterior,health,meat,and carcass.Notably,63.21%of the bases within the BICIs call set contained interspersed repeats,predominantly Long Inter-spersed Nuclear Elements(LINEs).Additionally,70.28%of BICIs are shared with other domesticated and wild species,highlighting their evolutionary significance.Conclusions This is the first report unveiling a robust set of NUIs defining the pangenome of Bos indicus breeds of India.The analyses contribute valuable insights into the genomic landscape of desi cattle breeds.展开更多
Methane contributes to global warming,and livestock is one of the sources of methane production.However,methane emission studies using bibliometric tools in livestock are lacking.Given the negative impact of climate c...Methane contributes to global warming,and livestock is one of the sources of methane production.However,methane emission studies using bibliometric tools in livestock are lacking.Given the negative impact of climate change on the ecosystem and the rise in methane emissions,it is essential to conduct a bibliometrics study to provide an overview and research trends.We used the Bibliometrix package and VOSviewer to decipher bibliometric indices for methane emissions in cattle farms(MECF).Current dataset were collected from the Web of Science(Core Collection)database,and 8,998 publications were analyzed.The most co-occurring keywords scientists preferred were methane(1,528),greenhouse gas(443),methane emissions(440),and cattle(369).Methane was the most frequently used keyword in the published scientific literature.Thematic evolution of research themes and trend results highlighted carbon dioxide,methane,dairy cattle,cattle,and risk factors during 1999–2017.Chinese Academy of Sciences ranked on top with 485 publications,followed by Agriculture&Agri-Food Canada,University of Colorado,National Oceanic and Atmospheric Administration,and Aarhus University.Chinese Academy of Sciences was also the most cited organization,followed by the University of Colorado,Agriculture&Agri-Food Canada,National Oceanic and Atmospheric Administration,and United States Geological Survey.Source analysis showed that the Science of the Total Environment was cited with the highest total link strength.Science of the Total Environment ranked first in source core 1 with 290 citation frequencies,followed by Journal of Dairy Science with 223 citation frequencies.Currently,no bibliometric study has been conducted on MECF,and to fill this knowledge gap,we carried out this study to highlight methane emissions in cattle farms,aiming at a climate change perspective.In this regard,we focused on the research productivity of countries authors,journals and institutions,co-occurrence of keywords,evolution of research trends,and collaborative networking.Based on relevance degree of centrality,methane emissions and greenhouse gases appeared as basic themes,cattle,and dairy cattle appeared as emerging/declining themes,whereas,methane,greenhouse gas and nitrous oxide appeared to fall amongst basic and motor themes.On the other hand,beef cattle,rumen and dairy cow seem to be between motor and niche themes,and risk factors lie in niche themes.The present bibliometric analysis provides research progress on methane emissions in cattle farms.Current findings may provide a framework for understanding research trends and themes in MECF research.展开更多
Somatic cell nuclear transfer(SCNT)has been successfully employed across various mammalian species,yet cloned animals consistently exhibit low pregnancy rates,primarily due to placental abnormalities such as hyperplas...Somatic cell nuclear transfer(SCNT)has been successfully employed across various mammalian species,yet cloned animals consistently exhibit low pregnancy rates,primarily due to placental abnormalities such as hyperplasia and hypertrophy.This study investigated the involvement of the Hippo signaling pathway in aberrant placentaldevelopmentinSCNT-inducedbovine pregnancies.SCNT-derived cattle exhibited placental hypertrophy,including enlarged abdominal circumference and altered placental cotyledon morphology.RNA sequencing analysis indicated significant dysregulation of Hippo signaling pathway genes in SCNT placentas.Coexpression of YAP1 and CCND1 was observed in cloned blastocysts,placental tissues,and bovine placental mesenchymal stem cells(bPMSCs).Manipulation of YAP1expression demonstrated the capacity to regulate bPMSC proliferation.Experimental assays confirmed the direct binding of YAP1 to CCND1,which subsequently promoted CCND1 expression in bPMSCs.Furthermore,inhibition of CDK6,a downstream target of CCND1,attenuated SCNT bPMSC proliferation.This study identified YAP1 as a key regulatory component within the Hippo signaling pathway that drives placental hyperplasia in cloned cattle through up-regulation of CCND1-CDK6 expression,facilitating cell cycle progression.These findings offer potential avenues for enhancing cloning efficiency,with implications for evolutionary biology and the conservation of valuable germplasm resources.展开更多
In mid-June,the vast,rolling meadow steppe grasslands of Bayanwenduer Sumu in Ar Horqin Banner,Inner Mongolia Autonomous Region,once again stretched into the horizon like green waves with herds of cattle and sheep sca...In mid-June,the vast,rolling meadow steppe grasslands of Bayanwenduer Sumu in Ar Horqin Banner,Inner Mongolia Autonomous Region,once again stretched into the horizon like green waves with herds of cattle and sheep scattered across them like pearls in a green ocean.This flock was driven by herders on horseback,motorcycles,and agricultural vehicles,leading the animals to summer pastures in one of the most important migrations of the year.展开更多
Dear Editor,Since 2024,the clade 2.3.4.4b highly pathogenic avian influenza(HPAI)H5N1 viruses have been identified in dairy cattle in the United States,raising global concerns about public health(Neumann and Kawaoka,2...Dear Editor,Since 2024,the clade 2.3.4.4b highly pathogenic avian influenza(HPAI)H5N1 viruses have been identified in dairy cattle in the United States,raising global concerns about public health(Neumann and Kawaoka,2024).As of December 18,2024,the U.S.Centers for Disease Control and Prevention(CDC)has reported over 61 confirmed cases of H5N1 infection in humans,predominantly associated with exposure to infected poultry or dairy cattle(U.S.Centers for Disease Control and Prevention,2024).Notably,the circulating 2.3.4.4b H5N1 clade has demonstrated continuous evolution in both wild and domestic birds globally,with expanding mammalian host tropism that now includes swine,cats,red foxes,harbor seals,and skunks(Peacock et al.,2024).These viruses have not only incurred substantial economic impacts but also posed dual threats to human health and ecological stability particularly during co-infections with other viruses(Abolnik,2024;Wang and Wang,2023).展开更多
Local cattle breeds play a critical role in breeding programs due to their genetic adaptations to diverse environmental conditions.However,the genomic architecture of local cattle breeds in Kazakhstan remains largely ...Local cattle breeds play a critical role in breeding programs due to their genetic adaptations to diverse environmental conditions.However,the genomic architecture of local cattle breeds in Kazakhstan remains largely unexplored.This study utilized whole-genome sequencing data from Kazakh cattle to elucidate their genetic composition,uncovering three primary ancestral components:European,Eurasian,and East Asian taurine.The East Asian taurine lineage likely represents the earliest genetic contribution to Kazakh cattle but was largely replaced by subsequent waves of cattle migrations across Eurasia,leaving only a minor genetic signature in the current cattle population.In contrast,Eurasian taurine ancestry predominated in the Alatau and Kazakh local breeds,while the European taurine component was most prevalent in Kazakh white-headed cattle,consistent with their documented breeding history.Kazakh cattle exhibited higher genetic diversity and lower inbreeding coefficients compared to European commercial breeds,reflecting reduced exposure to intense artificial selection.A strong selection signal was identified on chromosome 6 at a locus encompassing PDGFRA,KIT,and KDR,which may be associated with the white-headed pigmentation characteristic of Kazakh white-headed cattle.Additional genes under selection were linked to lipid metabolism(IRS1,PRKG1,and ADCY8),meat production traits(KCNMA1,PDGFRA,HIF1A,and ANTXR1),and dairy production(ATP2B1,DHX15,FUK,NEGR1,CCDC91,COG4,and PTK2B).This study represents the first comprehensive analysis of nuclear genome data from local Kazakh cattle.It highlights the impact of historical cattle migrations across Eurasia on their genetic landscape and identifies key genomic regions under selection.These findings advance our understanding of the evolutionary history of cattle and offer valuable genetic resources for future breeding strategies.展开更多
Facing the severe decline in beef cattle market prices and leveraging its status as a major cattle-raising city,Binzhou City has actively utilized the superior genetic resources of Bohai Black Cattle.The city has prog...Facing the severe decline in beef cattle market prices and leveraging its status as a major cattle-raising city,Binzhou City has actively utilized the superior genetic resources of Bohai Black Cattle.The city has progressively transitioned from small-scale cattle farming to specialized and large-scale breeding communities by collaborating with experts from national and provincial industrial technology systems including the Chinese Academy of Agricultural Sciences,Shandong Academy of Agricultural Sciences,and Shandong Agricultural University.The breeding focus has shifted from Simmental crossbred cattle to purebred Bohai Black Cattle,hybrid cattle,Angus Cattle,and Hereford Cattle,driving the transformation and upgrading of the beef cattle industry.Emphasizing"germplasm source security",Binzhou has capitalized on the unique advantages of Bohai Black Cattle to achieve doubling in quantity,quality,and profitability of high-grade beef cattle breeds.This initiative supports ecological conservation and high-quality development in the Yellow River Basin.A Qilu Model will be established for national modern animal husbandry,further strengthening Shandong's first beef market.展开更多
Objective:To evaluate the effect of glutathione(GSH)supplementation in maturation and adaptation media on oocyte development,embryo quality,and oocyte viability after vitrification.Methods:The GSH concentrations were ...Objective:To evaluate the effect of glutathione(GSH)supplementation in maturation and adaptation media on oocyte development,embryo quality,and oocyte viability after vitrification.Methods:The GSH concentrations were classified into four groups(0,0.5,1.0,and 1.5 mM)which were added to the maturation medium.The maturation process was conducted in vitro for 24 h.Following maturation,oocytes were fertilized with Bali bull semen for 5-6 h and then cultured for 48 h.The morphological quality of ocytes matured with GSH addition and the vitrification method used was evaluated.Parameters assessed included maturation rate,fertilization rate,embryo development,post-vitrification oocyte morphology,and quality of post-vitrification oocytes with GSH added to the adaptation medium.Results:The addition of GSH to the maturation medium significantly improved oocyte quality and embryo development(P<0.05).Specifically,adding 1.5 mM GSH increased the percentage of oocytes reaching metaphase栻from 57.6%without GSH oocytes to 79.0%with 1.5 mM GSH,two-pronuclei fertilization from 47.0%to 72.7%,embryo development from 37.1%to 57.2%,morula formation from 14.6%to 33.7%,and blastocyst formation from 8.1%to 23.8%.Additionally,the survival rate of oocytes post-vitrification increased to 75%with GSH supplementation.Conclusions:The addition of 0.5-1.5 mM of GSH to the maturation and adaptation media significantly enhanced the metaphase栻stage,fertilization rates,cleavage rates,and the survival of oocytes after vitrification.Among the concentrations of 1.5 mM was the most effective in increasing oocyte development and maintaining oocytes viability post-vitrification.展开更多
The objectives of this study which included two experiments were to investigate the effects of dietary inclusion of sorghum grain rich in condensed tannins(CT)(18.9 g kg^(–1)dry matter(DM))on nitrogen(N)metabolism an...The objectives of this study which included two experiments were to investigate the effects of dietary inclusion of sorghum grain rich in condensed tannins(CT)(18.9 g kg^(–1)dry matter(DM))on nitrogen(N)metabolism and urine nitrous oxide(N_(2)O)emissions of beef steers.In experiment 1,six Limousin×Luxi crossbreed steers with an initial liveweight of(245.0±18.7)kg were used as experimental animals.Three levels of sorghum grain,i.e.,0,167 and 338 g kg^(–1)DM were included in diets as experimental treatments.The animals and the treatments were randomly assigned to a replicated 3×3 Latin square design.In experiment 2,static incubation technique was used to determine the N_(2)O emissions of the urine samples collected in experiment 1.The results of experiment 1 showed that dietary inclusion of sorghum grain linearly increased the faecal N excretion(P=0.001),the total N excretion(P=0.010)and the faecal N to N intake ratio(P=0.021),but it did not affect the N retention and the N utilization efficiency(P>0.10).The plasma metabolomic data showed that dietary inclusion of sorghum grain increased the relative concentrations of phenolic acid(N1,N5,N10-tris-trans-p-coumaroylspermine and prenyl cis-caffeate)and carnitine(3-hydroxyisovalerylcarnitine and linoelaidyl carnitine).The results also showed that dietary inclusion of sorghum grain linearly increased the urinary urea excretion(P=0.010)and decreased the urinary excretion of purine derivatives(P=0.041)as well as the estimated rumen microbial N supply(P=0.012)based on urinary purine derivatives.The results of experiment 2 showed that including sorghum grain in the diet linearly increased the average concentrations of NH_(4)^(+)-N(P=0.012),NO_(2)^(–)-N(P=0.009),NO_(3)^(-)-N(P=0.001)and the total inorganic N(P<0.001)in the soil enriched with urine samples.The urine sample N_(2)O-N flux(P=0.001),the estimated steer urine N_(2)O-N flux(P=0.021)and the N_(2)O-N to urinary N ratio(P=0.038)linearly increased with increasing inclusion of sorghum grain in the diet.In conclusion,dietary inclusion of sorghum grain containing high CT at 167 and 338 g kg^(–1)DM did not affect the N utilization efficiency of steers but increased the urine N_(2)O-N emissions by 5.7 and 31.4%,respectively.For reducing the N_(2)O emissions to the environment,high levels of sorghum grain should not be included in the diet of steers.展开更多
Cattle carcass traits are economically important in the beef industry.In the present study,we identified 184 significant genes and 822 alternative genes for 7 carcass traits using genome-wide association studies(GWAS)...Cattle carcass traits are economically important in the beef industry.In the present study,we identified 184 significant genes and 822 alternative genes for 7 carcass traits using genome-wide association studies(GWAS)in 1,566 Huaxi beef cattle.We then identified 5,860 unique cis-genes and 734 trans-genes in 227 longissimus dorsi muscle(LDM)samples to better understand the genetic regulation of gene expression.Our integration study of the GWAS and cis-eQTL analysis detected 13 variants regulating 12 identical genes,in which one variant was also detected in fine-mapping analysis.Moreover,using a transcriptome-wide association study(TWAS),we identified 4 genes(TTC30B,HMGA1,PRKD3 and FXN)that were significantly related to carcass chest depth(CCD),carcass length(CL),carcass weight(CW)and dressing percentage(DP).This study identified variants and genes that may be useful for understanding the molecular mechanism of carcass traits in beef cattle.展开更多
Background MicroRNAs(miRNAs)are presented in the uterine lumen of many mammals,and in vitro experiments have determined that several miRNAs are important for the regulation of endometrial and trophoblast functions.Our...Background MicroRNAs(miRNAs)are presented in the uterine lumen of many mammals,and in vitro experiments have determined that several miRNAs are important for the regulation of endometrial and trophoblast functions.Our aim was to identify and contrast the miRNAs present in extracellular vesicles(EVs)in the uterine lumen fluid(ULF)at the onset of attachment in cattle pregnancies(gestation d 18)initiated by artificial insemination(AI)or by the trans-fer of an in vitro-produced blastocyst(IVP-ET).A third group had no conceptus after the transfer of an IVP embryo.Results The abundance of 263 annotated miRNAs was quantified in the EVs collected from ULF.There was an increase in the transcript abundance of 20 miRNAs in the ULF EVs from the AI pregnant group,while 4 miRNAs had a lower abundance relative to the group not containing a conceptus.Additionally,4 miRNAs were more abun-dant in ULF EVs in the AI pregnant group relative to IVP-ET group(bta-mir-17,bta-mir-7-3,MIR7-1,MIR18A).Specific miRNAs in the ULF EVs were co-expressed with messenger RNAs expressed in extra-embryonic tissues and endome-trium,including genes that are known to be their targets.Conclusions The results provide biological insights into the participation of miRNAs in the regulation of trophoblast proliferation and differentiation,as well as in endometrium receptivity.The knowledge that in vitro cultured embryos can contribute to the altered abundance of specific miRNAs in the uterine lumen can lead to the development of cor-rective approaches to reduce conceptus losses during the first month of pregnancy in cattle.展开更多
The global rise in animal protein consumption has significantly amplified the demand for fodder.A comprehensive understanding of the diversity and characteristics of existing fodder resources is essential for balanced...The global rise in animal protein consumption has significantly amplified the demand for fodder.A comprehensive understanding of the diversity and characteristics of existing fodder resources is essential for balanced nutritional fodder production.This study investigates the diversity and composition of fodder plants and identifies key species for cattle in Zhaotong City,Yunnan,China,while documenting indigenous knowledge on their usage and selection criteria.Ethnobotanical surveys were conducted in 19 villages across seven townships with 140 informants.Data were collected through semi-structured interviews,free listing,and participatory observation,and analyzed using Relative Frequency Citation.A total of 125 taxa(including 106 wild and 19 cultivated)were reported.The most cited family is Poaceae(27 taxa,21.43%),followed by Asteraceae(17 taxa,13.49%),Fabaceae(14 taxa,11.11%),Polygonaceae(9 taxa,7.14%)and Lamiaceae(4 taxa,3.17%).The whole plant(66.04%)and herbaceous plants(84.80%)were the most used parts and life forms.The most cited species were Zea mays,Brassica rapa,Solanum tuberosum,Eragrostis nigra,and Artemisia dubia.Usage of diverse fodder resources reflects local wisdom in managing resource availability and achieving balanced nutrition while coping with environmental and climatic risks.Preferences for certain taxonomic groups are due to their quality as premier fodder resources.To promote integrated crop-livestock farming,we suggest further research into highly preferred fodder species,focusing on nutritional assessment,digestibility,meat quality impacts,and potential as antibiotic alternatives.Establishing germplasm and gene banks for fodder resources is also recommended.展开更多
Background Supplementation of choline chloride in culture medium programs the preimplantation bovine embryo to increase weaning weight of the resultant calf.Here,it was hypothesized that similar programming actions of...Background Supplementation of choline chloride in culture medium programs the preimplantation bovine embryo to increase weaning weight of the resultant calf.Here,it was hypothesized that similar programming actions of choline can be induced by feeding rumen-protected choline(RPC)to beef cows during the periconceptional period.Results A preliminary experiment was conducted to determine changes in circulating concentrations of choline and its metabolites after RPC supplementation.Suckled beef cows were individually fed 0,30,60,and 90 g of RPC(i.e.,0,8.6,17.3 and 25.9 g choline chloride)and blood samples were collected at random times after feeding.There were no differences in plasma concentrations of choline or its metabolites between groups.In the second experiment,effects of feeding 60 g/d RPC from d-1 to 7 relative to timed artificial insemination were examined for suckled beef cows.Feeding RPC did not affect pregnancy or calving rates,pregnancy losses,plasma concentrations of pregnancy-associated glycoproteins,gestation length or calf birth weight.Calves from RPC fed dams were lighter than control calves at~118 days of age(range 75–150;age included in the statistical model)and at weaning at~248 days of age.There was no effect of treatment on hip height at~118 days of age although there was a trend for RPC calves to be shorter at weaning.Weight/height ratio was lower for RPC than control at both 118 and 248 days of age.Treatment did not affect testis weight at~118 days of age.Conclusions Supplementation of RPC during the periconceptional period programmed development to alter calf phenotype in the postnatal period.The net result,reduced body weight,was the opposite of the phenotype caused by the addition of choline to embryo culture medium.展开更多
Background Sperm cryopreservation is widely used in the cattle industry,as it allows for disassociating the localiza-tion of sires and the collection of semen from the timing of artificial insemination.While freeze-th...Background Sperm cryopreservation is widely used in the cattle industry,as it allows for disassociating the localiza-tion of sires and the collection of semen from the timing of artificial insemination.While freeze-thawing is known to impair sperm DNA integrity,whether the damage induced consists of single-(SSB)or double-strand breaks(DSB)has not been determined.In addition,no previous study has addressed if DNA breaks preferentially reside in specific genome regions such as those forming the toroid linker regions,or are rather spread throughout the regions linked to protamines.The main aim of the present work,therefore,was to elucidate the type and localization of the DNA damage generated by cryopreservation and to evaluate its impact on artificial insemination outcomes in cattle.Results The incidence of SSB and DSB was evaluated in 12 ejaculates before and after cryopreservation with the Comet assay,and the localization of the DNA breaks was assessed using pulsed-field gel electrophoresis(PFGE).Before cryopreservation,the incidence of SSB was 10.99%±4.62%and involved 20.56%±3.04%of sperm cells,whereas these figures significantly(P<0.0001)increased up to 34.11%±3.48%and 53.36%±11.00%in frozen-thawed sperm.In contrast,no significant differences in the incidence of DSB were observed(P>0.990)before and after cryopreservation(before:incidence of 13.91%±1.75%of sperm DNA affecting 56.04%±12.49%of sperm cells;after:incidence of 13.55%±1.55%of sperm DNA involving 53.36%±11.00%of sperm cells).Moreover,PFGE revealed that the percentage of sperm DNA fragments whose length was shorter than a toroid(<31.5 kb)was greater(P<0.0001)after(27.00%±4.26%)than before freeze-thawing(15.57%±4.53%).These differences indicated that the DNA breaks induced by cryopreservation affect the regions condensed in protamines,which are structured in toroids.On the other hand,in vivo fertility rates were associated to the incidence of SSB and DSB in frozen-thawed sperm(P=0.032 and P=0.005),but not with the size of the DNA fragments resulting from these breaks(P>0.05).Conclusion Cryopreservation of bovine sperm generates single-strand DNA breaks,which are mainly located in protamine-condensed toroidal regions.The incidence of DNA breaks in cryopreserved sperm has an impact on cat-tle fertility,regardless of the size of generated fragments.展开更多
文摘One major problem is the high mortality of calves due to feed shortages during the dry season. To overcome this problem, it needs feeding strategies based on local resources that can be provided by farmers. The purpose of this study was to determine body weight gain (BWG) of post weaning Bali cattle fed with legume. The study was conducted in experimental garden Lili, Kupang and designed with completely randomized design (CRD) 4 × 5; four kinds of legumes were used as treatment, such as: (1) Centrosema pascuorum; (2) Clitoria ternatea; (3) Desmodium sp.; (4) Leucaena leucocephala. Cattles used as the subject were separated into five groups based on body weight as the replication. The experimental data was tabulated and analyzed by covariance analysis (GenStat) and financial analysis (for analyzing revenue and real cost during the study). The result shows that legume feeding of Leucaena leucocephala at the second, fifth, eighth and ninth week have no significant effect (P 〈 0.05) to BWG, but shows significant effect (P 〈 0.05) to BWG at the fourth week. The feeding of Centrosema pascuorum, Clitoria ternatea, Desmodium sp. and Leucaena leucocephala to post weaning Bali cattle showed higher feed consumption and higher BWG, especially in Leucaena leucocephala treatment. Feeding legume to post weaning Bali cattle is also economically profitable (return/cost (R/C) ratio 〉 1).
文摘Introduction: Cattle are strong animals very often used in agriculture in rural Africa. Unpredictable in their behavior, they regularly inflict injuries to farmers, some of whom are children in rural Africa. Objective: The purpose of this study was to describe the clinical, therapeutic and evolutionary aspects of abdominal trauma caused by bovidae to children on farms in Burkina Faso. Patients and Method: This is a descriptive study covering the period from January 2014 through December 2016 and was conducted in the General Surgery Unit of the Tenkodogo Regional Hospital in Burkina Faso. It included all patients under the age of 17, victims of abdominal trauma by cattle on farms. Result: A total of 68 patients were identified, which is 3% of all patients under 17 admitted to the service during the same period. The average age of patients was 10.5 years, with a standard variation of 3.6 years. The majority (73.5%) of the patients were boys. The main lesional mechanisms found were horn strokes (88.2%). We noted 35 eviscerations without visceral perforation, 15 intestinal perforations, 6 hepatic wounds and 5 splenic wounds. In 7 cases, there were non-penetrating wounds. All patients underwent surgical intervention under anesthesia. The average length of hospital was 6 days. Two deaths were recorded, making a mortality rate of 3%. Conclusion: Abdominal traumas of the child by attack of cattle are frequent during farm works in rural Burkina Faso. The injuries are sometimes serious. Wearing protective equipment for children should be considered during farm work.
基金supported in part by AFRI grant numbers 2019-7015-29321 and 2021-67015-33409 from the USDA National Institute of Food and Agriculture(NIFA)the SCINet project of the USDA ARS project number 0500-00093-001-00-D。
文摘Structural variations(SVs≥50 bp)are a critical but underexplored source of genetic diversity in cattle,shaping traits vital for productivity,adaptability,and health.Advances in long-read sequencing,pangenome graph construction,and near-complete genome assemblies now allow accurate SV detection and genotyping.These innovations overcome the limitations of single-reference genomes,enabling the discovery of complex SVs,including nested and overlapping variants,and providing access to previously inaccessible genomic regions such as centromeres and telomeres.This review highlights the current landscape of cattle SV research,with emphasis on integrating longread sequencing and pangenome frameworks to uncover breed-specific and population-level variation.While many SVs are linked to economically important traits such as feed efficiency and disease resistance,their broader regulatory impacts remain an active area of investigation.Emerging functional genomics approaches,including transcriptomics,epigenomics,and genome editing,will clarify how SVs influence gene regulation and phenotype.Looking forward,the integration of SV catalogs with multi-omics data,imputation resources,and artificial intelligence-driven models will be essential for translating discoveries into breeding and conservation applications.Integrating structural variants into breeding pipelines promises to revolutionize livestock genomics,enabling precision selection and sustainable agriculture despite challenges in cost,data sharing,and functional validation.
基金funded by the Beef Cattle Research Council Cluster(FDE.18.21C)Natural Sciences and Engineering Research Council of Canada(NSERC)Discovery,NSERC Canadian Research Chair(Tier 1)program+2 种基金NSERC Alliance program(ALLRP 588541‐23)Foundation for Food&Agriculture Research Greener Cattle Initiative(Award ID 22‐000373)DSM Nutritional Products,Kaiseraugst,Switzerland。
文摘Background The enteric methane inhibitor 3-nitrooxypropanol(3-NOP)inhibits the key enzyme in ruminal methanogenesis,but whether short-term(ST)and long-term(LT)dietary supplementation has similar effects on rumen microbiota in beef cattle and how microbes change after 3-NOP withdrawal have not been studied.This study investigated changes in rumen bacteria,archaea,and protozoa after ST and LT dietary supplementation and removal of 3-NOP using metataxonomic analysis.Results A total of 143 rumen samples were collected from two beef cattle studies with 3-NOP supplementation.The ST study(95 samples)used eight ruminally cannulated beef cattle in a 4×4 Latin square design with four 28-d of 3-NOP treatments[mg/kg of dry matter(DM)]:control:0,low:53,med:161,and high:345.The LT study(48 samples)was a completely randomized design with two 3-NOP treatments[control:0,and high:280 mg/kg of DM)fed for 112-d followed by a 16-d withdrawal(without 3-NOP).Bacterial and archaeal communities were significantly affected by 3-NOP supplementation but limited effects on protozoal communities were observed.Under ST supplementation,the relative abundances of Prevotella,Methanobrevibacter(Mbb.)ruminantium,Methanosphaera sp.ISO3-F5,and Entodinium were increased(Q<0.05),whereas those of Mbb.gottschalkii and Epidinium were decreased(Q<0.05)with 3-NOP supplementation.In LT study,relative abundances of Mbb.ruminantium,and Methanosphaera sp.Group5 were increased(Q<0.05),while those of Saccharofermentans and Mbb.gottschalkii were decreased(Q<0.05)with 3-NOP supplementation.Comparison between 3-NOP supplementation and the withdrawal revealed increased relative abundances of Clostridia UCG-014 and Oscillospiraceae NK4A214 group and decreased those of Eubacterium nodatum group and Methanosphaera sp.Group5(P<0.05)after 3-NOP withdrawal.Further comparison of rumen microbiota between control and 3-NOP withdrawal showed significantly higher(P=0.029)relative abundances of Eggerthellaceae DNF00809,p-1088-a5 gut group,and Family XII UCG-001 in control group while no significant differences were detected for archaea and protozoa.Microbial network analysis revealed that microbial interactions differed by both 3-NOP dose and durations.Conclusions Both ST and LT supplementation affected overall rumen microbial profile,with individual microbial groups responded to 3-NOP supplementation differently.After 3-NOP withdrawal,not all microbes showed recovery,indicating that the 3-NOP driven shifts were only partially reversible.These findings provide an understanding of the effects of 3-NOP on rumen microbial communities and their adaptability to methane mitigation strategies.
基金supported by the National Natural Science Foundation of China(no.32372838,U22A20506)the National Key Research and Development Program of China(no.2024YFD1300104)+1 种基金the scientific and technological development program of Jilin province(YDZJ202203CGZH037)the earmarked fund for JLARS-2025-070203。
文摘Background Exosomes are crucial mediators of intercellular communication.As a key component of milk,milkderived exosomes are abundant in genetic cargo,particularly micro RNAs(mi RNAs),indicating their potential role in regulating mammary gland physiology.Therefore,this study aimed to investigate the specificity of mi RNAs in milkderived exosomes and their regulatory roles in lipid synthesis in bovine mammary epithelial cells(BMECs).Results Based on 17,838 DHI records showing a significantly higher milk fat percentage(MFP)in late lactation(4.24%±1.07%),10 high-(5.96%±0.26%,HMF)and 10 low-MFP(1.68%±0.23%,LMF)cows were selected during this stage for milk-derived exosome isolation and mi RNA profiling.Exosomes isolated via differential ultracentrifugation were verified as 50-150 nm vesicles expressing CD9,CD81,and TSG101.mi RNA sequencing identified 1,320 differentially expressed mi RNAs(496 upregulated and 824 downregulated)between the HMF_EXO and LMF_EXO groups.Uptake assays confirmed that BMECs internalized these exosomes,and q RT-PCR validation showed that mi R-423-5p and mi R-125b were significantly upregulated and downregulated in HMF_EXO-and LMF_EXO-treated BMECs,respectively.Functionally,exosomal mi R-423-5p promoted intracellular lipid accumulation and TG synthesis in BMECs by targeting APOA5,whereas mi R-125b inhibited lipolysis and fatty acid oxidation by repressing SLC27A1.Conclusions This study demonstrates that milk-derived exosomal mi RNAs represent a novel mechanism for regulating milk fat synthesis.Specifically,mi R-423-5p and mi R-125b directly modulated lipid metabolism in BMECs via the mi R-423-5p/APOA5 and mi R-125b/SLC27A1 pathways.These findings provide new insights into the molecular regulation of milk fat synthesis and highlight the importance of exosome-mediated intercellular communication in the lactating mammary gland.
基金funded by the Joint Funds of the National Natural Science Foundation of China(U2202203)。
文摘Background The gayal(Bos frontalis),a semi-domesticated bovine species,demonstrates exceptional adaptability to lignocellulose-rich diets dominated by bamboo,suggesting the presence of a specialized gastrointestinal microbiome.However,the functional mechanisms underlying this host-microbiome interaction remain poorly understood.Here,we conducted integrated metagenomic and metatranscriptomic analyses of rumen,cecum,and colon digesta from yellow cattle and gayal raised on the same bamboo-based high-fiber diet.Results The results showed that gayal exhibited superior fiber-degrading capacity relative to yellow cattle,evidenced by significantly higher(P<0.05)fiber digestibility,cellulase and xylanase activities,and increased volatile fatty acids production despite identical feed intake.Microbial community analysis revealed distinct composition in both the rumen and hindgut of gayal compared to yellow cattle,with notable enrichment of taxa specialized in lignocellulose degradation.Metatranscriptomic profiling further identified upregulation of key lignin-modification enzymes,particularly AA6,AA2,and AA3,primarily encoded by Prevotella,Cryptobacteroides,Limimorpha,and Ventricola.These enzymes are known to modify lignin structure to increase polysaccharide accessibility.These results demonstrate that gayal hosts a unique and metabolically active gastrointestinal microbiome capable of efficient lignocellulose deconstruction through a coordinated enzymatic cascade,especially effective in dismantling lignin barriers.Conclusions This study provides novel insights into host-microbiome co-adaptation to fibrous feeds and highlights the potential of gayal-derived microbial consortia and enzymes for improving roughage utilization in ruminant agriculture.
基金the project “Genomics for Conservation of Indigenous Cattle Breeds and for Enhancing Milk Yield, Phase-I” [BT/ PR26466/AAQ/1/704/2017], funded by the Department of Biotechnology (DBT ), Indiathe project “Identification of key molecular factors involved in resistance/susceptibility to paratuberculosis infection in indigenous breeds of cows” [BT/PR32758/AAQ/1/760/2019], which was also funded by Department of Biotechnology (DBT ), India。
文摘Background India harbors the world’s largest cattle population,encompassing over 50 distinct Bos indicus breeds.This rich genetic diversity underscores the inadequacy of a single reference genome to fully capture the genomic landscape of Indian cattle.To comprehensively characterize the genomic variation within Bos indicus and,specifically,dairy breeds,we aim to identify non-reference sequences and construct a comprehensive pangenome.Results Five representative genomes of prominent dairy breeds,including Gir,Kankrej,Tharparkar,Sahiwal,and Red Sindhi,were sequenced using 10X Genomics‘linked-read’technology.Assemblies generated from these linked-reads ranged from 2.70 Gb to 2.77 Gb,comparable to the Bos indicus Brahman reference genome.A pangenome of Bos indicus cattle was constructed by comparing the newly assembled genomes with the reference using alignment and graph-based methods,revealing 8 Mb and 17.7 Mb of novel sequence respectively.A confident set of 6,844 Non-reference Unique Insertions(NUIs)spanning 7.57 Mb was identified through both methods,representing the pange-nome of Indian Bos indicus breeds.Comparative analysis with previously published pangenomes unveiled 2.8 Mb(37%)commonality with the Chinese indicine pangenome and only 1%commonality with the Bos taurus pange-nome.Among these,2,312 NUIs encompassing~2 Mb,were commonly found in 98 samples of the 5 breeds and des-ignated as Bos indicus Common Insertions(BICIs)in the population.Furthermore,926 BICIs were identified within 682 protein-coding genes,54 long non-coding RNAs(lncRNA),and 18 pseudogenes.These protein-coding genes were enriched for functions such as chemical synaptic transmission,cell junction organization,cell-cell adhesion,and cell morphogenesis.The protein-coding genes were found in various prominent quantitative trait locus(QTL)regions,suggesting potential roles of BICIs in traits related to milk production,reproduction,exterior,health,meat,and carcass.Notably,63.21%of the bases within the BICIs call set contained interspersed repeats,predominantly Long Inter-spersed Nuclear Elements(LINEs).Additionally,70.28%of BICIs are shared with other domesticated and wild species,highlighting their evolutionary significance.Conclusions This is the first report unveiling a robust set of NUIs defining the pangenome of Bos indicus breeds of India.The analyses contribute valuable insights into the genomic landscape of desi cattle breeds.
基金supported by the Special Fund for Science and Technology Innovation Strategy of Guangdong Province,China(2022660500250009604)。
文摘Methane contributes to global warming,and livestock is one of the sources of methane production.However,methane emission studies using bibliometric tools in livestock are lacking.Given the negative impact of climate change on the ecosystem and the rise in methane emissions,it is essential to conduct a bibliometrics study to provide an overview and research trends.We used the Bibliometrix package and VOSviewer to decipher bibliometric indices for methane emissions in cattle farms(MECF).Current dataset were collected from the Web of Science(Core Collection)database,and 8,998 publications were analyzed.The most co-occurring keywords scientists preferred were methane(1,528),greenhouse gas(443),methane emissions(440),and cattle(369).Methane was the most frequently used keyword in the published scientific literature.Thematic evolution of research themes and trend results highlighted carbon dioxide,methane,dairy cattle,cattle,and risk factors during 1999–2017.Chinese Academy of Sciences ranked on top with 485 publications,followed by Agriculture&Agri-Food Canada,University of Colorado,National Oceanic and Atmospheric Administration,and Aarhus University.Chinese Academy of Sciences was also the most cited organization,followed by the University of Colorado,Agriculture&Agri-Food Canada,National Oceanic and Atmospheric Administration,and United States Geological Survey.Source analysis showed that the Science of the Total Environment was cited with the highest total link strength.Science of the Total Environment ranked first in source core 1 with 290 citation frequencies,followed by Journal of Dairy Science with 223 citation frequencies.Currently,no bibliometric study has been conducted on MECF,and to fill this knowledge gap,we carried out this study to highlight methane emissions in cattle farms,aiming at a climate change perspective.In this regard,we focused on the research productivity of countries authors,journals and institutions,co-occurrence of keywords,evolution of research trends,and collaborative networking.Based on relevance degree of centrality,methane emissions and greenhouse gases appeared as basic themes,cattle,and dairy cattle appeared as emerging/declining themes,whereas,methane,greenhouse gas and nitrous oxide appeared to fall amongst basic and motor themes.On the other hand,beef cattle,rumen and dairy cow seem to be between motor and niche themes,and risk factors lie in niche themes.The present bibliometric analysis provides research progress on methane emissions in cattle farms.Current findings may provide a framework for understanding research trends and themes in MECF research.
基金supported by the National Natural Science Foundation of China (32060755)Natural Science Foundation of Inner Mongolia (2024MS03001)+7 种基金Inner Mongolia Autonomous Region Open Competition Projects (2022JBGS0018)Program for Young Talents of Science and Technology in Universities of Inner Mongolia Autonomous Region (NJYT23090)Inner Mongolia Autonomous Region Science and Technology Leading Team (2022LJRC0006)Inner Mongolia Autonomous Region Science and Technology Major Project (2021ZD0009)Major Agricultural Science and Technology Project of the Ministry of Agriculture and Rural Affairs (NK2022130203)Central Government Guides Local Science and Technology Development Funds (2022ZY0212)Inner Mongolia Autonomous Region High-level Talent Support ProgramInner Mongolia University Chief Scientist Program。
文摘Somatic cell nuclear transfer(SCNT)has been successfully employed across various mammalian species,yet cloned animals consistently exhibit low pregnancy rates,primarily due to placental abnormalities such as hyperplasia and hypertrophy.This study investigated the involvement of the Hippo signaling pathway in aberrant placentaldevelopmentinSCNT-inducedbovine pregnancies.SCNT-derived cattle exhibited placental hypertrophy,including enlarged abdominal circumference and altered placental cotyledon morphology.RNA sequencing analysis indicated significant dysregulation of Hippo signaling pathway genes in SCNT placentas.Coexpression of YAP1 and CCND1 was observed in cloned blastocysts,placental tissues,and bovine placental mesenchymal stem cells(bPMSCs).Manipulation of YAP1expression demonstrated the capacity to regulate bPMSC proliferation.Experimental assays confirmed the direct binding of YAP1 to CCND1,which subsequently promoted CCND1 expression in bPMSCs.Furthermore,inhibition of CDK6,a downstream target of CCND1,attenuated SCNT bPMSC proliferation.This study identified YAP1 as a key regulatory component within the Hippo signaling pathway that drives placental hyperplasia in cloned cattle through up-regulation of CCND1-CDK6 expression,facilitating cell cycle progression.These findings offer potential avenues for enhancing cloning efficiency,with implications for evolutionary biology and the conservation of valuable germplasm resources.
文摘In mid-June,the vast,rolling meadow steppe grasslands of Bayanwenduer Sumu in Ar Horqin Banner,Inner Mongolia Autonomous Region,once again stretched into the horizon like green waves with herds of cattle and sheep scattered across them like pearls in a green ocean.This flock was driven by herders on horseback,motorcycles,and agricultural vehicles,leading the animals to summer pastures in one of the most important migrations of the year.
文摘Dear Editor,Since 2024,the clade 2.3.4.4b highly pathogenic avian influenza(HPAI)H5N1 viruses have been identified in dairy cattle in the United States,raising global concerns about public health(Neumann and Kawaoka,2024).As of December 18,2024,the U.S.Centers for Disease Control and Prevention(CDC)has reported over 61 confirmed cases of H5N1 infection in humans,predominantly associated with exposure to infected poultry or dairy cattle(U.S.Centers for Disease Control and Prevention,2024).Notably,the circulating 2.3.4.4b H5N1 clade has demonstrated continuous evolution in both wild and domestic birds globally,with expanding mammalian host tropism that now includes swine,cats,red foxes,harbor seals,and skunks(Peacock et al.,2024).These viruses have not only incurred substantial economic impacts but also posed dual threats to human health and ecological stability particularly during co-infections with other viruses(Abolnik,2024;Wang and Wang,2023).
基金supported by the National Key R&D Program of China(2022YFF1000100)China Postdoctoral Science Foundation(2022M722615)。
文摘Local cattle breeds play a critical role in breeding programs due to their genetic adaptations to diverse environmental conditions.However,the genomic architecture of local cattle breeds in Kazakhstan remains largely unexplored.This study utilized whole-genome sequencing data from Kazakh cattle to elucidate their genetic composition,uncovering three primary ancestral components:European,Eurasian,and East Asian taurine.The East Asian taurine lineage likely represents the earliest genetic contribution to Kazakh cattle but was largely replaced by subsequent waves of cattle migrations across Eurasia,leaving only a minor genetic signature in the current cattle population.In contrast,Eurasian taurine ancestry predominated in the Alatau and Kazakh local breeds,while the European taurine component was most prevalent in Kazakh white-headed cattle,consistent with their documented breeding history.Kazakh cattle exhibited higher genetic diversity and lower inbreeding coefficients compared to European commercial breeds,reflecting reduced exposure to intense artificial selection.A strong selection signal was identified on chromosome 6 at a locus encompassing PDGFRA,KIT,and KDR,which may be associated with the white-headed pigmentation characteristic of Kazakh white-headed cattle.Additional genes under selection were linked to lipid metabolism(IRS1,PRKG1,and ADCY8),meat production traits(KCNMA1,PDGFRA,HIF1A,and ANTXR1),and dairy production(ATP2B1,DHX15,FUK,NEGR1,CCDC91,COG4,and PTK2B).This study represents the first comprehensive analysis of nuclear genome data from local Kazakh cattle.It highlights the impact of historical cattle migrations across Eurasia on their genetic landscape and identifies key genomic regions under selection.These findings advance our understanding of the evolutionary history of cattle and offer valuable genetic resources for future breeding strategies.
基金Supported by Binzhou Comprehensive Experimental Station Project of Pasture Industry Technology System in Shandong Province(SDAIT-23-10).
文摘Facing the severe decline in beef cattle market prices and leveraging its status as a major cattle-raising city,Binzhou City has actively utilized the superior genetic resources of Bohai Black Cattle.The city has progressively transitioned from small-scale cattle farming to specialized and large-scale breeding communities by collaborating with experts from national and provincial industrial technology systems including the Chinese Academy of Agricultural Sciences,Shandong Academy of Agricultural Sciences,and Shandong Agricultural University.The breeding focus has shifted from Simmental crossbred cattle to purebred Bohai Black Cattle,hybrid cattle,Angus Cattle,and Hereford Cattle,driving the transformation and upgrading of the beef cattle industry.Emphasizing"germplasm source security",Binzhou has capitalized on the unique advantages of Bohai Black Cattle to achieve doubling in quantity,quality,and profitability of high-grade beef cattle breeds.This initiative supports ecological conservation and high-quality development in the Yellow River Basin.A Qilu Model will be established for national modern animal husbandry,further strengthening Shandong's first beef market.
基金This study was financially supported by Universitas Hasanuddin through Penelitian Fundamental Kolaboratif(PFK)(letter of appointment number:00323/UN4.22/PT.0103/2023).
文摘Objective:To evaluate the effect of glutathione(GSH)supplementation in maturation and adaptation media on oocyte development,embryo quality,and oocyte viability after vitrification.Methods:The GSH concentrations were classified into four groups(0,0.5,1.0,and 1.5 mM)which were added to the maturation medium.The maturation process was conducted in vitro for 24 h.Following maturation,oocytes were fertilized with Bali bull semen for 5-6 h and then cultured for 48 h.The morphological quality of ocytes matured with GSH addition and the vitrification method used was evaluated.Parameters assessed included maturation rate,fertilization rate,embryo development,post-vitrification oocyte morphology,and quality of post-vitrification oocytes with GSH added to the adaptation medium.Results:The addition of GSH to the maturation medium significantly improved oocyte quality and embryo development(P<0.05).Specifically,adding 1.5 mM GSH increased the percentage of oocytes reaching metaphase栻from 57.6%without GSH oocytes to 79.0%with 1.5 mM GSH,two-pronuclei fertilization from 47.0%to 72.7%,embryo development from 37.1%to 57.2%,morula formation from 14.6%to 33.7%,and blastocyst formation from 8.1%to 23.8%.Additionally,the survival rate of oocytes post-vitrification increased to 75%with GSH supplementation.Conclusions:The addition of 0.5-1.5 mM of GSH to the maturation and adaptation media significantly enhanced the metaphase栻stage,fertilization rates,cleavage rates,and the survival of oocytes after vitrification.Among the concentrations of 1.5 mM was the most effective in increasing oocyte development and maintaining oocytes viability post-vitrification.
基金supported by the National Natural Science Foundation of China(31572428)。
文摘The objectives of this study which included two experiments were to investigate the effects of dietary inclusion of sorghum grain rich in condensed tannins(CT)(18.9 g kg^(–1)dry matter(DM))on nitrogen(N)metabolism and urine nitrous oxide(N_(2)O)emissions of beef steers.In experiment 1,six Limousin×Luxi crossbreed steers with an initial liveweight of(245.0±18.7)kg were used as experimental animals.Three levels of sorghum grain,i.e.,0,167 and 338 g kg^(–1)DM were included in diets as experimental treatments.The animals and the treatments were randomly assigned to a replicated 3×3 Latin square design.In experiment 2,static incubation technique was used to determine the N_(2)O emissions of the urine samples collected in experiment 1.The results of experiment 1 showed that dietary inclusion of sorghum grain linearly increased the faecal N excretion(P=0.001),the total N excretion(P=0.010)and the faecal N to N intake ratio(P=0.021),but it did not affect the N retention and the N utilization efficiency(P>0.10).The plasma metabolomic data showed that dietary inclusion of sorghum grain increased the relative concentrations of phenolic acid(N1,N5,N10-tris-trans-p-coumaroylspermine and prenyl cis-caffeate)and carnitine(3-hydroxyisovalerylcarnitine and linoelaidyl carnitine).The results also showed that dietary inclusion of sorghum grain linearly increased the urinary urea excretion(P=0.010)and decreased the urinary excretion of purine derivatives(P=0.041)as well as the estimated rumen microbial N supply(P=0.012)based on urinary purine derivatives.The results of experiment 2 showed that including sorghum grain in the diet linearly increased the average concentrations of NH_(4)^(+)-N(P=0.012),NO_(2)^(–)-N(P=0.009),NO_(3)^(-)-N(P=0.001)and the total inorganic N(P<0.001)in the soil enriched with urine samples.The urine sample N_(2)O-N flux(P=0.001),the estimated steer urine N_(2)O-N flux(P=0.021)and the N_(2)O-N to urinary N ratio(P=0.038)linearly increased with increasing inclusion of sorghum grain in the diet.In conclusion,dietary inclusion of sorghum grain containing high CT at 167 and 338 g kg^(–1)DM did not affect the N utilization efficiency of steers but increased the urine N_(2)O-N emissions by 5.7 and 31.4%,respectively.For reducing the N_(2)O emissions to the environment,high levels of sorghum grain should not be included in the diet of steers.
基金supported by the National Natural Science Foundation of China(32372833 and 32202652)the Agricultural Science and Technology Innovation Program in the Chinese Academy of Agricultural Sciences(ASTIP-IAS03 and CAASZDRW202102)+1 种基金the Program of National Beef Cattle and Yak Industrial Technology System,China(CARS-37)the Science and Technology Project of Inner Mongolia Autonomus Region,China(2020GG0210)。
文摘Cattle carcass traits are economically important in the beef industry.In the present study,we identified 184 significant genes and 822 alternative genes for 7 carcass traits using genome-wide association studies(GWAS)in 1,566 Huaxi beef cattle.We then identified 5,860 unique cis-genes and 734 trans-genes in 227 longissimus dorsi muscle(LDM)samples to better understand the genetic regulation of gene expression.Our integration study of the GWAS and cis-eQTL analysis detected 13 variants regulating 12 identical genes,in which one variant was also detected in fine-mapping analysis.Moreover,using a transcriptome-wide association study(TWAS),we identified 4 genes(TTC30B,HMGA1,PRKD3 and FXN)that were significantly related to carcass chest depth(CCD),carcass length(CL),carcass weight(CW)and dressing percentage(DP).This study identified variants and genes that may be useful for understanding the molecular mechanism of carcass traits in beef cattle.
基金Agriculture and Food Research Initiative Competitive Grant no.2018-67015-31936 from the USDA National Institute of Food and Agriculture.
文摘Background MicroRNAs(miRNAs)are presented in the uterine lumen of many mammals,and in vitro experiments have determined that several miRNAs are important for the regulation of endometrial and trophoblast functions.Our aim was to identify and contrast the miRNAs present in extracellular vesicles(EVs)in the uterine lumen fluid(ULF)at the onset of attachment in cattle pregnancies(gestation d 18)initiated by artificial insemination(AI)or by the trans-fer of an in vitro-produced blastocyst(IVP-ET).A third group had no conceptus after the transfer of an IVP embryo.Results The abundance of 263 annotated miRNAs was quantified in the EVs collected from ULF.There was an increase in the transcript abundance of 20 miRNAs in the ULF EVs from the AI pregnant group,while 4 miRNAs had a lower abundance relative to the group not containing a conceptus.Additionally,4 miRNAs were more abun-dant in ULF EVs in the AI pregnant group relative to IVP-ET group(bta-mir-17,bta-mir-7-3,MIR7-1,MIR18A).Specific miRNAs in the ULF EVs were co-expressed with messenger RNAs expressed in extra-embryonic tissues and endome-trium,including genes that are known to be their targets.Conclusions The results provide biological insights into the participation of miRNAs in the regulation of trophoblast proliferation and differentiation,as well as in endometrium receptivity.The knowledge that in vitro cultured embryos can contribute to the altered abundance of specific miRNAs in the uterine lumen can lead to the development of cor-rective approaches to reduce conceptus losses during the first month of pregnancy in cattle.
基金supported by the Strategic Priority Research Program of Chinese Academy of Sciences(Grant No.XDA26050301-02)。
文摘The global rise in animal protein consumption has significantly amplified the demand for fodder.A comprehensive understanding of the diversity and characteristics of existing fodder resources is essential for balanced nutritional fodder production.This study investigates the diversity and composition of fodder plants and identifies key species for cattle in Zhaotong City,Yunnan,China,while documenting indigenous knowledge on their usage and selection criteria.Ethnobotanical surveys were conducted in 19 villages across seven townships with 140 informants.Data were collected through semi-structured interviews,free listing,and participatory observation,and analyzed using Relative Frequency Citation.A total of 125 taxa(including 106 wild and 19 cultivated)were reported.The most cited family is Poaceae(27 taxa,21.43%),followed by Asteraceae(17 taxa,13.49%),Fabaceae(14 taxa,11.11%),Polygonaceae(9 taxa,7.14%)and Lamiaceae(4 taxa,3.17%).The whole plant(66.04%)and herbaceous plants(84.80%)were the most used parts and life forms.The most cited species were Zea mays,Brassica rapa,Solanum tuberosum,Eragrostis nigra,and Artemisia dubia.Usage of diverse fodder resources reflects local wisdom in managing resource availability and achieving balanced nutrition while coping with environmental and climatic risks.Preferences for certain taxonomic groups are due to their quality as premier fodder resources.To promote integrated crop-livestock farming,we suggest further research into highly preferred fodder species,focusing on nutritional assessment,digestibility,meat quality impacts,and potential as antibiotic alternatives.Establishing germplasm and gene banks for fodder resources is also recommended.
基金supported by the L.E.“Red”Larson Endowment and grants number 2020-67015-30821 and 2023-67015-40730 from the Agriculture and Food Research Initiative of USDA-NIFAsupported by the Higher Education Commission of Pakistan。
文摘Background Supplementation of choline chloride in culture medium programs the preimplantation bovine embryo to increase weaning weight of the resultant calf.Here,it was hypothesized that similar programming actions of choline can be induced by feeding rumen-protected choline(RPC)to beef cows during the periconceptional period.Results A preliminary experiment was conducted to determine changes in circulating concentrations of choline and its metabolites after RPC supplementation.Suckled beef cows were individually fed 0,30,60,and 90 g of RPC(i.e.,0,8.6,17.3 and 25.9 g choline chloride)and blood samples were collected at random times after feeding.There were no differences in plasma concentrations of choline or its metabolites between groups.In the second experiment,effects of feeding 60 g/d RPC from d-1 to 7 relative to timed artificial insemination were examined for suckled beef cows.Feeding RPC did not affect pregnancy or calving rates,pregnancy losses,plasma concentrations of pregnancy-associated glycoproteins,gestation length or calf birth weight.Calves from RPC fed dams were lighter than control calves at~118 days of age(range 75–150;age included in the statistical model)and at weaning at~248 days of age.There was no effect of treatment on hip height at~118 days of age although there was a trend for RPC calves to be shorter at weaning.Weight/height ratio was lower for RPC than control at both 118 and 248 days of age.Treatment did not affect testis weight at~118 days of age.Conclusions Supplementation of RPC during the periconceptional period programmed development to alter calf phenotype in the postnatal period.The net result,reduced body weight,was the opposite of the phenotype caused by the addition of choline to embryo culture medium.
基金Ministry of Science,Innovation and Universities,Spain(NextGeneration EU fundsMaría Zambrano Program 124/MTAI/22+2 种基金and PID2020-113320RB-I00)Agency for Management of University and Research Grants,Regional Government of Catalonia,Spain(2021-SGR-00900)Catalan Institution for Research and Advanced Studies(ICREA).
文摘Background Sperm cryopreservation is widely used in the cattle industry,as it allows for disassociating the localiza-tion of sires and the collection of semen from the timing of artificial insemination.While freeze-thawing is known to impair sperm DNA integrity,whether the damage induced consists of single-(SSB)or double-strand breaks(DSB)has not been determined.In addition,no previous study has addressed if DNA breaks preferentially reside in specific genome regions such as those forming the toroid linker regions,or are rather spread throughout the regions linked to protamines.The main aim of the present work,therefore,was to elucidate the type and localization of the DNA damage generated by cryopreservation and to evaluate its impact on artificial insemination outcomes in cattle.Results The incidence of SSB and DSB was evaluated in 12 ejaculates before and after cryopreservation with the Comet assay,and the localization of the DNA breaks was assessed using pulsed-field gel electrophoresis(PFGE).Before cryopreservation,the incidence of SSB was 10.99%±4.62%and involved 20.56%±3.04%of sperm cells,whereas these figures significantly(P<0.0001)increased up to 34.11%±3.48%and 53.36%±11.00%in frozen-thawed sperm.In contrast,no significant differences in the incidence of DSB were observed(P>0.990)before and after cryopreservation(before:incidence of 13.91%±1.75%of sperm DNA affecting 56.04%±12.49%of sperm cells;after:incidence of 13.55%±1.55%of sperm DNA involving 53.36%±11.00%of sperm cells).Moreover,PFGE revealed that the percentage of sperm DNA fragments whose length was shorter than a toroid(<31.5 kb)was greater(P<0.0001)after(27.00%±4.26%)than before freeze-thawing(15.57%±4.53%).These differences indicated that the DNA breaks induced by cryopreservation affect the regions condensed in protamines,which are structured in toroids.On the other hand,in vivo fertility rates were associated to the incidence of SSB and DSB in frozen-thawed sperm(P=0.032 and P=0.005),but not with the size of the DNA fragments resulting from these breaks(P>0.05).Conclusion Cryopreservation of bovine sperm generates single-strand DNA breaks,which are mainly located in protamine-condensed toroidal regions.The incidence of DNA breaks in cryopreserved sperm has an impact on cat-tle fertility,regardless of the size of generated fragments.
