This paper collected and arranged competitive scientific research projects undertaken by Tropical Crops Genetic Resources Institute of Chinese Academy of Tropical Agricultural Sciences in 2003-2014. Through statistica...This paper collected and arranged competitive scientific research projects undertaken by Tropical Crops Genetic Resources Institute of Chinese Academy of Tropical Agricultural Sciences in 2003-2014. Through statistical analysis on quantity of projects,funded amount,age of person responsible,professional title of person responsible,academic degree of person responsible,research object,it discussed relevant characteristics and rules. Finally,it came up with pertinent measures and recommendations,in the hope of providing services for decision-making and scientific and technological management.展开更多
Taking Tropical Crops Genetic Resources Institute( TCGRI) of Chinese Academy of Tropical Agricultural Sciences( CATAS) as an example,this paper discussed current situation of construction of sci-tech platform,analyzed...Taking Tropical Crops Genetic Resources Institute( TCGRI) of Chinese Academy of Tropical Agricultural Sciences( CATAS) as an example,this paper discussed current situation of construction of sci-tech platform,analyzed existing problems,and finally came up with pertinent recommendations.展开更多
This paper firstly reviewed development process of UPOV Conventions and briefly introduced current situation of protection of new tropical crop varieties in China. Using SWOT approach,it analyzed internal strengths,we...This paper firstly reviewed development process of UPOV Conventions and briefly introduced current situation of protection of new tropical crop varieties in China. Using SWOT approach,it analyzed internal strengths,weaknesses,external opportunities and threats of breeding R&D of tropical crops if implementing UPOV Convention 1991 Act in China. Internal strengths include rich resources,strategic significance of tropical crops,solid crop breeding foundation,and broad market prospect. Internal weaknesses include insufficient reserve of germplasm resources,weak R&D and protection of new varieties,low market level of breeding R&D entities,unreasonable structure,low input in breeding R&D,and weak protection awareness. Opportunities include bringing into play strengths of rich tropical plant resources,stimulating enthusiasm for new variety R&D and awareness for variety protection,promoting structural optimization of breeding input entities,raising technology level of breeding R&D,and promoting international cooperation of new variety protection. Threats include more strict restriction of intellectual property right,impact to weak fields of new variety R&D,and difficulty in implementing limitation of farmer privileges. Finally,it came up with four recommendations for breeding R&D of tropical crops in China in the contest of implementing UPOV Convention 1991 Act.展开更多
The work of world crop germplasm resources are increasingly emerging the developing trend of globalization in collection scope, systematization in resources management, modernization in existing equipments, standardiz...The work of world crop germplasm resources are increasingly emerging the developing trend of globalization in collection scope, systematization in resources management, modernization in existing equipments, standardization in technical specification and informationization in shared service. This paper gives you an introduction on current situation of distribution of tropical crop germplasm resources, in-situ conservation, collection and preservation, evaluation and appraisal and innovation and utilization in china; analysis on existing key problems in protection and utilization of China's tropical crop germplasm resources; proposal of complementary study and collection and construction of geographical information base; reasonably layout of plantation and upgrade and preservation of equipments; development and research of related technical standards and carry-out of system evaluation and appraisal; improvement of share mechanism and efficiency; innovation and breakthrough in key points; and talents training and maintenance of work continuance, etc. Basing on these, the proposal of protection and utilization of China's tropical crop germplasm resources are further strengthened.展开更多
The plant growth regulator diethyl aminoethyl hexanoate (DA-6) has proved highly effective on micropropagation of the medicinal plant purple coneflower (Echinacea purpurea (L.) Moench), however, sharp variation of the...The plant growth regulator diethyl aminoethyl hexanoate (DA-6) has proved highly effective on micropropagation of the medicinal plant purple coneflower (Echinacea purpurea (L.) Moench), however, sharp variation of the effects existed among explants in the same treatment, making the application of DA-6 in micropropagation difficult. In order to clarify factors that influencing the treating results of DA-6, explants with different biomass dosage were prepared and inoculated onto medium supplemented with different concentrations of DA-6. It was found that among the three kinds of biomass dosage explants, the lowest biomass explants required the lowest concentration of DA-6, and the highest biomass explants required the highest concentration of DA-6 for the best results on adventitious buds regeneration. Similar results were obtained when regenerated buds of three different biomass dosages were cultured. It could be concluded from the above experimental results that for achieving better DA-6 application results, the concentration of DA-6 should be determined not only by the types but also by the biomass dosage of the explants. The present finding might help to improve the micropropagation efficiency in E. purpurea, and might be applicable for other species展开更多
Grapevine is one of the most economically important crops worldwide.However,the previous versions of the grapevine reference genome tipically consist of thousands of fragments with missing centromeres and telomeres,li...Grapevine is one of the most economically important crops worldwide.However,the previous versions of the grapevine reference genome tipically consist of thousands of fragments with missing centromeres and telomeres,limiting the accessibility of the repetitive sequences,the centromeric and telomeric regions,and the study of inheritance of important agronomic traits in these regions.Here,we assembled a telomere-to-telomere(T2T)gap-free reference genome for the cultivar PN40024 using PacBio HiFi long reads.The T2T reference genome(PN_T2T)is 69 Mb longer with 9018 more genes identified than the 12X.v0 version.We annotated 67%repetitive sequences,19 centromeres and 36 telomeres,and incorporated gene annotations of previous versions into the PN_T2T assembly.We detected a total of 377 gene clusters,which showed associations with complex traits,such as aroma and disease resistance.Even though PN40024 derives from nine generations of selfing,we still found nine genomic hotspots of heterozygous sites associated with biological processes,such as the oxidation–reduction process and protein phosphorylation.The fully annotated complete reference genome therefore constitutes an important resource for grapevine genetic studies and breeding programs.展开更多
Banana fruit ripening is a highly regulatory process involving various layers consisting of transcriptional regulation,epigenetic factor,and post-translational modification.Previously,we reported that MaERF11 cooperat...Banana fruit ripening is a highly regulatory process involving various layers consisting of transcriptional regulation,epigenetic factor,and post-translational modification.Previously,we reported that MaERF11 cooperated with MaHDA1 to precisely regulate the transcription of ripening-associated genes via histone deacetylation.However,whether MaERF11 is subjected to post-translational modification during banana ripening is largely unknown.In this study,we found that MaERF11 targeted a subset of starch degradation-related genes using the DNA affinity purification sequence(DAP-Seq)approach.Electrophoretic mobility shift assay(EMSA)and dual-luciferase reporter assay(DLR)demonstrated that MaERF11 could specifically bind and repress the expression of the starch degradation-related genes MaAMY3,MaBAM2 and MaGWD1.Further analyses of yeast two-hybrid(Y2H),bimolecular fluorescence complementation(BiFC)and Luciferase complementation imaging(LCI)assays indicated that MaERF11 interacted with the ubiquitin E3 ligase MaRFA1,and this interaction weakened the MaERF11-mediated transcriptional repression capacity.Collectively,our results suggest an additional regulatory layer in which MaERF11 regulates banana fruit ripening and expands the regulatory network in fruit ripening at the post-translational modification level.展开更多
This study aimed to investigate the effects of dietary guanidinoacetic acid on growth performance,meat quality,antioxidant activity,and antioxidant-related gene expression in ducks.Total 48042-day-old female ducks wer...This study aimed to investigate the effects of dietary guanidinoacetic acid on growth performance,meat quality,antioxidant activity,and antioxidant-related gene expression in ducks.Total 48042-day-old female ducks were randomly divided into four groups with six replicates and 20 ducks per replicate and fed the basal diet to the control group.The experimental groups were fed the basal diet with 400,600 and 800 mg·kg^(-1) guanidinoacetic acid,respectively.The trial lasted 48 days.Compared with the control group,(1)the body weight at 90 days and average daily gain were increased(P<0.05),the feed conservation ratio was decreased(P<0.05);(2)the dressing percentage and breast muscle percentage were increased(P<0.05);(3)the total amino acid content,polyunsaturated fatty acids to monounsaturated fatty acids ratio were increased(P<0.05)in breast and thigh muscles;(4)activities of superoxide dismutase,catalase and glutathione peroxidase enzyme were increased(P<0.05)in thigh muscles;(5)the relative expressions of superoxide dismutase 1,glutathione peroxidase 1,and catalase were significantly increased(P<0.05)in the liver.In this study,the optimum dosage of 600 mg·kg^(-1) guanidinoacetic acid improved the growth performance,meat quality,antioxidant activity,and antioxidant-related gene expression in ducks.展开更多
Litchi(Litchi chinensis Sonn.),an important fruit tree in tropical and subtropical regions,possesses substantial economic value.The branchand leaf-related traits of litchi have a significant impact on litchi yield and...Litchi(Litchi chinensis Sonn.),an important fruit tree in tropical and subtropical regions,possesses substantial economic value.The branchand leaf-related traits of litchi have a significant impact on litchi yield and quality.However,due to limitations such as the density of the genetic linkage map,there have been few studies on mapping QTLs of branch-and leaf-related traits.In this study,a high-density genetic map was constructed by next-generation sequencing(NGS)using an F_(1) population of 264 progenies,derived from the cross between the cultivars‘Sanyuehong'and‘Ziniangxi'.A total of 2574 high-quality BINs(binomial intervals)were obtained,and a genetic linkage map was constructed with a total length of 1753.3 cM and an average marker distance of 0.68 cM.With the genetic map and the phenotyping of single leaf length(SLL),single leaf width(SLW),leaf shape index(LSI),weight of specific leaf(WSL),petiole length(PL)and compound leaf length(CLL)measured in three seasons,11,9,9,10,9 and 12 QTLs were detected for SLL,SLW,WSL,LSI,PL and CLL traits,respectively.Among these QTLs,five QTLs were consistently detected in two seasons and 12 pleiotropic QTLs were identified for at least two traits.These findings will provide new insights for the gene cloning for branch-and leaf-related traits as well as marker-assisted selection(MAS).展开更多
Isomorphic substitution of ferric ion(Fe~(3+))by aluminum ion(Al~(3+))in iron(hydro)oxides is ubiquitous in natural environments.Aluminum substitution inevitably leads to changes in the microstructures,physicochemical...Isomorphic substitution of ferric ion(Fe~(3+))by aluminum ion(Al~(3+))in iron(hydro)oxides is ubiquitous in natural environments.Aluminum substitution inevitably leads to changes in the microstructures,physicochemical properties,and surface reactions of iron(hydro)oxides,which may have great impacts on the sequestration of nutrients and contaminants in soils and aquatic environments.Over the past decades,the structural properties and surface reactivity of Al-substituted iron(hydro)oxides have been intensively studied.Iron(hydro)oxides in various structural forms and with different Al substitution amounts present high application potentials in addressing environmental issues.A timely summary of the structural properties and interfacial reactions of the most common and representative Al-substituted iron(hydro)oxides is of significance.Herein,the effects of Al substitution on the structural properties and surface activities of iron(hydro)oxides were clarified according to the microstructure,crystal facets,surface site type and density,interfacial reaction mechanisms,and modeling parameters of iron(hydro)oxides.This review systematically elucidates how Al substitution affects the structural properties and surface reactions of iron(hydro)oxides,including the well crystallized goethite and hematite and the poorly crystallized ferrihydrite,providing theoretical guidance for further exploration of the mineralogical characteristics and environmental geochemical behaviors of iron(hydro)oxides.展开更多
Base editors are essential tools for precise genome editing in plants.However,achieving high efficiency in C-to-G editing while minimizing byproduct and offtarget mutations remains challenging.In this study,we present...Base editors are essential tools for precise genome editing in plants.However,achieving high efficiency in C-to-G editing while minimizing byproduct and offtarget mutations remains challenging.In this study,we present the development and evaluation of a novel glycosylase-based cytosine base editor(gCBE)for efficient C-to-G editing in rice.Unlike traditional cytosine base editors,which rely on cytosine deamination,gCBE directly excises cytosine to generate an apurinic/apyrimidinic(AP)site,thus circumventing the deamination step and reducing the production of C-to-T byproducts.We constructed several gCBE variants,including N-gCBE,M-gCBE,and C-gCBE,by fusing engineered human UDG2(UNG*)to SpCas9 nickase(nSpCas9,D10A)and tested their editing efficiency and specificity in rice.Our results demonstrate that M-gCBE achieved efficient C-to-G editing(6.3%to 37.5%)similar to OsCGBE(9.4%to 28.1%)at most targets,though with site-dependent variations.Notably,gCBE tools showed a marked reduction in C-to-T byproducts,with average C-to-T mutation rates of 12.5%for N-gCBE and 16.7%for M-gCBE,compared to 53.1%for OsCGBE.Notably,both N-gCBE and M-gCBE were capable of generating homozygous C-to-G mutations in the T_(0)generation,a key advantage over OsCGBE,which predominantly generated C-to-T mutations.Off-target analysis revealed minimal off-target effects with M-gCBE,highlighting its potential for high-precision genome editing.These findings suggest that gCBE tools,particularly M-gCBE,are highly efficient and precise,providing an advanced solution for C-to-G editing in plants and offering promising applications for crop improvement.展开更多
Mango(Mangifera indica L.cv.‘Keitt’)is one of the core fruit delicacies produced by China.During the post-harvest storage span,the fungal pathogen colletotrichum gloeosporioides readily invades the fruits and leads ...Mango(Mangifera indica L.cv.‘Keitt’)is one of the core fruit delicacies produced by China.During the post-harvest storage span,the fungal pathogen colletotrichum gloeosporioides readily invades the fruits and leads to a significant overall yield loss.In recent years of development,the exploitation of naturally occurring fungitoxic compounds such as Sandalwood Essential Oil(SEO)has been useful in tackling various fungal species.This study demonstrates the potential of SEO as part of a storage protection strategy against C.gloeosporioides-induced postharvest anthracnose.SEO displayed a relatively higher mycelial growth inhibition rate when compared to various other essential oils.Furthermore,the Minimal Inhibitory Concentration(MIC),Minimum Fungicidal Concentration(MFC),and EC_(50)(Half maximal effective concentration)of SEO were determined to be 2000,2500,and 610.38μL/L,respectively.Moreover,the chitosan glutamate-SEO emulsion controlled the anthracnose spread for several days by multiple folds at½MIC,MIC,and 2 MIC concentrations.These results strongly support the potential for largescale production and application of SEO emulsions by agrochemical firms and post-harvest storage facilities handling Keitt mangoes.展开更多
Coat color polymorphism in domestic animals provides a robust framework for elucidating mechanisms of species adaptation,domestication,and genomic diversity.Leiqiong cattle,a representative indicine breed from souther...Coat color polymorphism in domestic animals provides a robust framework for elucidating mechanisms of species adaptation,domestication,and genomic diversity.Leiqiong cattle,a representative indicine breed from southern China,are predominantly yellow-coated,although a subset exhibits a solid black phenotype.To determine the genetic basis of this variation,a genome-wide association study(GWAS)was performed in 212 Leiqiong bulls.A pronounced association signal was detected on chromosome 6 within the fifth intron of the CORIN gene,providing the first evidence of the potential influence of CORIN on bovine coat color variation.Integration of these results with publicly available genomic datasets and haplotype analyses indicated that the yellow coat phenotype is derived from Indian indicine ancestry,whereas the black coat phenotype emerged through introgression from wild bovine lineages and artificial hybridization with Wagyu cattle.Comparative analysis of Indian indicine cattle with divergent coat colors revealed distinct LEF1 haplotypes within a shared CORIN background,suggesting an ancient and complex domestication history underlying coat color variation.These findings provide direct evidence that introgression has shaped phenotypic variation in East Asian cattle and offer novel insights into the genetic architecture of pigmentation,with implications for future breeding strategies.展开更多
Background The bromodomain(BRD) proteins play a pivotal role in regulating gene expression by recognizing acetylated lysine residues and acting as chromatin-associated post-translational modification-inducing proteins...Background The bromodomain(BRD) proteins play a pivotal role in regulating gene expression by recognizing acetylated lysine residues and acting as chromatin-associated post-translational modification-inducing proteins. Although BRD proteins have been extensively studied in mammals, they have also been characterized in plants like Arabidopsis thaliana and Oryza sativa, where they regulate stress-responsive genes related to drought, salinity, and cold. However, their roles in cotton species remain unexplored.Results In this genome-wide comparative analysis, 145 BRD genes were identified in the tetraploid species(Gossypium hirsutum and G. barbadense), compared with 82 BRD genes in their diploid progenitors(G. arboreum and G. raimondii), indicating that polyploidization significantly influenced BRD gene evolution. Gene duplication analysis revealed 78.85% of duplications were segmental and 21.15% were tandem among 104 in-paralogous gene pairs, contributing to BRD gene expansion. Gene structure, motif, and domain analyses demonstrated that most genes were intron-less and conserved throughout evolution. Syntenic analysis revealed a greater number of orthologous gene pairs in the Dt sub-genome than in the At sub-genome. The abundance of regulatory, hormonal, and defense-related cis-regulatory elements in the promoter region suggests that BRD genes play a role in both biotic and abiotic stress responses. Protein-protein interaction analysis indicated that global transcription factor group E(GTE) transcription factors regulate BRD genes. Expression analysis revealed that BRD genes are predominantly involved in ovule development, with some genes displaying specific expression patterns under heat, cold, and salt stress. Furthermore, qRT-PCR analysis demonstrated significant differential expression of BRD genes between the tolerant and sensitive genotype, underscoring their potential role in mediating drought and salinity stress responses.Conclusions This study provides valuable insights into the evolution of BRD genes across species and their roles in abiotic stress tolerance, highlighting their potential in breeding programs to develop drought and salinity tolerant cotton varieties.展开更多
A hybrid Ft population was obtained by crossing between mango cultivars ' Jinhuang' and ' Guifei'. Among the hybrid population, 98 F1 plants were selected as the mapping population. The molecular genetic map of ma...A hybrid Ft population was obtained by crossing between mango cultivars ' Jinhuang' and ' Guifei'. Among the hybrid population, 98 F1 plants were selected as the mapping population. The molecular genetic map of mango was constructed by linkage analysis by SRAP, AFLP and ISSR markers using Joinmap4. 0 software. The genetic linkage map consisted of 33 linkage groups, with a total genetic distance of 1 561.1 cM. Moreover, the genetic linkage map involved 245 polymorphic markers, including 149 SRAP markers, 90 AFLP markers and 6 ISSR markers, with an average genetic distance of 6.37 cM. This study laid a founda- tion for further investigation of the important agronomic traits of mango.展开更多
Using degenerate oligonucleotide primers and genomic PCR reactions,the complete coding region sequences of two 1Ay high molecular weight(HMW)glutenin subunit genes were amplified from Triticum urartu accessions that s...Using degenerate oligonucleotide primers and genomic PCR reactions,the complete coding region sequences of two 1Ay high molecular weight(HMW)glutenin subunit genes were amplified from Triticum urartu accessions that showed differential expression of the 1Ay HMW glutenin subunits in their seeds.The coding sequence amplified from the accession that expressed the 1Ay gene(Tu1Ay-e)was highly homologous to that of known y type HMW glutenin subunit genes.Consequently,the primary structure of the protein translated from the coding sequence of Tu/Ay-e was identical to that of previously published y type subunits.Bacterial expression of the coding sequence of Tu/Ay-e produced a polypeptide identical to the 1Ay subunit extracted from seeds,indicating that the cloned sequence was an accurate representation of the original coding region of Tu/Ay-e.In contrast,the coding region sequence amplified from the accession that did not express 1Ay subunit contained three in-frame premature stop codons.Based on past findings on silenced HMW glutenin subunit genes,we conclude that the presence ofin-frame premature stop codon(s)is an important feature of the silenced 1Ay gene(Tu1Ay-s)in T.urartuThe potential value of the active 1Ay gene in improving the end use quality of common wheat and the mechanism underlying 1Ay gene silencing are discussed.展开更多
Under off-season production mode, change laws of nutritive materials in leaves of fruiting mother branches of mango in flowering process induced by dif- ferent agents were investigated. The results showed that the flo...Under off-season production mode, change laws of nutritive materials in leaves of fruiting mother branches of mango in flowering process induced by dif- ferent agents were investigated. The results showed that the flowering time of manga trees in the potassium nitrate treatment was earlier than the ethephon treatment by 7 d, and changes trends of materials in leaves of the potassium nitrate and ethephon treatments were substantially the same. The nutritive materials in leaves showed trends of increasing at first and decreasing then. In early flower bud differentiation stage, soluble sugar and starch in leaves increased rapidly, and content of soluble protein also increased rapidly and showed its their peak values, thereby providing energy substances and structural substances demanded by flower bud formation. With flower bud differentiation going on, soluble sugar, starch and soluble protein decreased gradually. It was indicated that the accumulation of soluble sugar, starch and soluble protein is beneficial to flower bud differentiation.展开更多
Through field plot experiment,we research the influencing factors of cowpea yield and quality after applying boron and molybdenum microelement fertilizer. Results show that the application of boron and molybdenum micr...Through field plot experiment,we research the influencing factors of cowpea yield and quality after applying boron and molybdenum microelement fertilizer. Results show that the application of boron and molybdenum microelement fertilizer can significantly increase the yield and improve the quality of cowpea. Compared with the control,yield per mu increases by 5. 08- 18. 86%; N content increases by 4. 27%-11. 28%; P content increases by 2. 13%- 13. 57%; K content increases by 2. 00%- 18. 48%; crude protein increases by 4. 16%-19. 94%; vitamin C increases by 2. 71%- 11. 79%; nitrate content decreases by 5%- 15%. Besides,it is better to combine boron with molybdenum than to use each of them separately.展开更多
Proanthocyanidins(PAs),also known as“condensed tannins”,are colorless metabolites produced through the flavonoid pathway that are involved in stress resistance in plants.Because PAs are involved in the anthocyanin b...Proanthocyanidins(PAs),also known as“condensed tannins”,are colorless metabolites produced through the flavonoid pathway that are involved in stress resistance in plants.Because PAs are involved in the anthocyanin biosynthetic pathway,they play a role in the modification of pigmentation conferred by anthocyanins in ornamental organs.In this study,we isolated the gene and functionally characterized an R2R3-MYB transcription factor(TF),AaMYB3,and a basic helix-loop-helix TF,AabHLH1,from Anthurium andraeanum(Hort.),a typical tropical flower.AaMYB3 is primarily expressed in the spathe and negatively correlates with anthocyanin accumulation.A complementation test in an Arabidopsis tt8 mutant showed that AabHLH1 successfully restores the PA-deficient seed coat phenotype.The ectopic overexpression of AaMYB3 alone or its coexpression with AabHLH1 in transgenic tobacco resulted in light pink or even pale-pink corolla limbs by reducing their anthocyanin levels and greatly enhancing their accumulation of PAs.This overexpression of the anthurium TF genes upregulated the late anthocyanin enzymeencoding genes(NtDFR and NtANS)and the key PA genes(NtLAR and NtANR)in transgenic tobacco.The interaction between AaMYB3 and the AabHLH1 protein was confirmed using yeast two-hybrid(Y2H)and bimolecular fluorescence complementation(BiFC)assays.In the developing red spathes of the cultivars“Vitara”and“Tropical”,the expression of AaMYB3 was closely linked to PA accumulation,and AaMYB3 was coexpressed with AaCHS,AaF3H,AaDFR,AaANS,AaLAR,and AaANR.The expression pattern of AabHLH1 was similar to that of AaF3′H.Our results suggest that AaMYB3 and AabHLH1 are involved in the regulation of PA biosynthesis in anthurium and could potentially be used to metabolically engineer PA biosynthesis in plants.展开更多
With the increase of growing area of bitter gourd, Fusarium wilt has become one of the most important diseases in bitter gourd production, seriously affecting the yield and quality of bitter gourd. The occurrence regu...With the increase of growing area of bitter gourd, Fusarium wilt has become one of the most important diseases in bitter gourd production, seriously affecting the yield and quality of bitter gourd. The occurrence regularity of bitter gourd Fusarium wilt was expounded, and the research status of agricultural control, chemical control and biological control were summarized, so as to provide the reference for safe and efficient production of bitter gourd.展开更多
基金Supported by Special Project for Reform of Non-profit Scientific Research Institution"Study on Whole Process Management of Agricultural Scientific and Technological Projects"
文摘This paper collected and arranged competitive scientific research projects undertaken by Tropical Crops Genetic Resources Institute of Chinese Academy of Tropical Agricultural Sciences in 2003-2014. Through statistical analysis on quantity of projects,funded amount,age of person responsible,professional title of person responsible,academic degree of person responsible,research object,it discussed relevant characteristics and rules. Finally,it came up with pertinent measures and recommendations,in the hope of providing services for decision-making and scientific and technological management.
基金Supported by Fund on Basic Scientific Research Project of Nonprofit Central Research Institutions(1630032014023)
文摘Taking Tropical Crops Genetic Resources Institute( TCGRI) of Chinese Academy of Tropical Agricultural Sciences( CATAS) as an example,this paper discussed current situation of construction of sci-tech platform,analyzed existing problems,and finally came up with pertinent recommendations.
基金Supported by Special Fund for Basic Scientific Research Project in Chinese Academy of Tropical Agricultural Sciences(1630012014020)
文摘This paper firstly reviewed development process of UPOV Conventions and briefly introduced current situation of protection of new tropical crop varieties in China. Using SWOT approach,it analyzed internal strengths,weaknesses,external opportunities and threats of breeding R&D of tropical crops if implementing UPOV Convention 1991 Act in China. Internal strengths include rich resources,strategic significance of tropical crops,solid crop breeding foundation,and broad market prospect. Internal weaknesses include insufficient reserve of germplasm resources,weak R&D and protection of new varieties,low market level of breeding R&D entities,unreasonable structure,low input in breeding R&D,and weak protection awareness. Opportunities include bringing into play strengths of rich tropical plant resources,stimulating enthusiasm for new variety R&D and awareness for variety protection,promoting structural optimization of breeding input entities,raising technology level of breeding R&D,and promoting international cooperation of new variety protection. Threats include more strict restriction of intellectual property right,impact to weak fields of new variety R&D,and difficulty in implementing limitation of farmer privileges. Finally,it came up with four recommendations for breeding R&D of tropical crops in China in the contest of implementing UPOV Convention 1991 Act.
文摘The work of world crop germplasm resources are increasingly emerging the developing trend of globalization in collection scope, systematization in resources management, modernization in existing equipments, standardization in technical specification and informationization in shared service. This paper gives you an introduction on current situation of distribution of tropical crop germplasm resources, in-situ conservation, collection and preservation, evaluation and appraisal and innovation and utilization in china; analysis on existing key problems in protection and utilization of China's tropical crop germplasm resources; proposal of complementary study and collection and construction of geographical information base; reasonably layout of plantation and upgrade and preservation of equipments; development and research of related technical standards and carry-out of system evaluation and appraisal; improvement of share mechanism and efficiency; innovation and breakthrough in key points; and talents training and maintenance of work continuance, etc. Basing on these, the proposal of protection and utilization of China's tropical crop germplasm resources are further strengthened.
文摘The plant growth regulator diethyl aminoethyl hexanoate (DA-6) has proved highly effective on micropropagation of the medicinal plant purple coneflower (Echinacea purpurea (L.) Moench), however, sharp variation of the effects existed among explants in the same treatment, making the application of DA-6 in micropropagation difficult. In order to clarify factors that influencing the treating results of DA-6, explants with different biomass dosage were prepared and inoculated onto medium supplemented with different concentrations of DA-6. It was found that among the three kinds of biomass dosage explants, the lowest biomass explants required the lowest concentration of DA-6, and the highest biomass explants required the highest concentration of DA-6 for the best results on adventitious buds regeneration. Similar results were obtained when regenerated buds of three different biomass dosages were cultured. It could be concluded from the above experimental results that for achieving better DA-6 application results, the concentration of DA-6 should be determined not only by the types but also by the biomass dosage of the explants. The present finding might help to improve the micropropagation efficiency in E. purpurea, and might be applicable for other species
基金This work was supported by the National Natural Science Fund for Excellent Young Scientists Fund Program(Overseas)to Y.Z.,the National Key Research and Development Program of China(grant 2019YFA0906200)the Agricultural Science and Technology Innovation Program(CAAS-ZDRW202101)+1 种基金the Shenzhen Science and Technology Program(grant KQTD2016113010482651)the BMBF-funded de.
文摘Grapevine is one of the most economically important crops worldwide.However,the previous versions of the grapevine reference genome tipically consist of thousands of fragments with missing centromeres and telomeres,limiting the accessibility of the repetitive sequences,the centromeric and telomeric regions,and the study of inheritance of important agronomic traits in these regions.Here,we assembled a telomere-to-telomere(T2T)gap-free reference genome for the cultivar PN40024 using PacBio HiFi long reads.The T2T reference genome(PN_T2T)is 69 Mb longer with 9018 more genes identified than the 12X.v0 version.We annotated 67%repetitive sequences,19 centromeres and 36 telomeres,and incorporated gene annotations of previous versions into the PN_T2T assembly.We detected a total of 377 gene clusters,which showed associations with complex traits,such as aroma and disease resistance.Even though PN40024 derives from nine generations of selfing,we still found nine genomic hotspots of heterozygous sites associated with biological processes,such as the oxidation–reduction process and protein phosphorylation.The fully annotated complete reference genome therefore constitutes an important resource for grapevine genetic studies and breeding programs.
基金financially supported by the National Natural Science Foundation of China(Grant Nos.31830071,32202561)the earmarked fund for CARS(Grant No.CARS-31)。
文摘Banana fruit ripening is a highly regulatory process involving various layers consisting of transcriptional regulation,epigenetic factor,and post-translational modification.Previously,we reported that MaERF11 cooperated with MaHDA1 to precisely regulate the transcription of ripening-associated genes via histone deacetylation.However,whether MaERF11 is subjected to post-translational modification during banana ripening is largely unknown.In this study,we found that MaERF11 targeted a subset of starch degradation-related genes using the DNA affinity purification sequence(DAP-Seq)approach.Electrophoretic mobility shift assay(EMSA)and dual-luciferase reporter assay(DLR)demonstrated that MaERF11 could specifically bind and repress the expression of the starch degradation-related genes MaAMY3,MaBAM2 and MaGWD1.Further analyses of yeast two-hybrid(Y2H),bimolecular fluorescence complementation(BiFC)and Luciferase complementation imaging(LCI)assays indicated that MaERF11 interacted with the ubiquitin E3 ligase MaRFA1,and this interaction weakened the MaERF11-mediated transcriptional repression capacity.Collectively,our results suggest an additional regulatory layer in which MaERF11 regulates banana fruit ripening and expands the regulatory network in fruit ripening at the post-translational modification level.
基金Supported by Hainan Provincial Natural Science Foundation of China(322MS134)。
文摘This study aimed to investigate the effects of dietary guanidinoacetic acid on growth performance,meat quality,antioxidant activity,and antioxidant-related gene expression in ducks.Total 48042-day-old female ducks were randomly divided into four groups with six replicates and 20 ducks per replicate and fed the basal diet to the control group.The experimental groups were fed the basal diet with 400,600 and 800 mg·kg^(-1) guanidinoacetic acid,respectively.The trial lasted 48 days.Compared with the control group,(1)the body weight at 90 days and average daily gain were increased(P<0.05),the feed conservation ratio was decreased(P<0.05);(2)the dressing percentage and breast muscle percentage were increased(P<0.05);(3)the total amino acid content,polyunsaturated fatty acids to monounsaturated fatty acids ratio were increased(P<0.05)in breast and thigh muscles;(4)activities of superoxide dismutase,catalase and glutathione peroxidase enzyme were increased(P<0.05)in thigh muscles;(5)the relative expressions of superoxide dismutase 1,glutathione peroxidase 1,and catalase were significantly increased(P<0.05)in the liver.In this study,the optimum dosage of 600 mg·kg^(-1) guanidinoacetic acid improved the growth performance,meat quality,antioxidant activity,and antioxidant-related gene expression in ducks.
基金supported by the Science and Technology Special Fund of Hainan Province(Grant Nos.ZDYF2021XDNY159 and ZDYF2021XDNY156)the Central Public-interest Scientific Institution Basal Research Fund for Chinese Academy of Tropical Agricultural Science(Grant No.1630032022007)China Agricultural Research System of MOF and MARA(Grant No.CARS-32-01)。
文摘Litchi(Litchi chinensis Sonn.),an important fruit tree in tropical and subtropical regions,possesses substantial economic value.The branchand leaf-related traits of litchi have a significant impact on litchi yield and quality.However,due to limitations such as the density of the genetic linkage map,there have been few studies on mapping QTLs of branch-and leaf-related traits.In this study,a high-density genetic map was constructed by next-generation sequencing(NGS)using an F_(1) population of 264 progenies,derived from the cross between the cultivars‘Sanyuehong'and‘Ziniangxi'.A total of 2574 high-quality BINs(binomial intervals)were obtained,and a genetic linkage map was constructed with a total length of 1753.3 cM and an average marker distance of 0.68 cM.With the genetic map and the phenotyping of single leaf length(SLL),single leaf width(SLW),leaf shape index(LSI),weight of specific leaf(WSL),petiole length(PL)and compound leaf length(CLL)measured in three seasons,11,9,9,10,9 and 12 QTLs were detected for SLL,SLW,WSL,LSI,PL and CLL traits,respectively.Among these QTLs,five QTLs were consistently detected in two seasons and 12 pleiotropic QTLs were identified for at least two traits.These findings will provide new insights for the gene cloning for branch-and leaf-related traits as well as marker-assisted selection(MAS).
基金financially supported by the National Natural Science Foundation of China(Nos.42207352,42007020,and 42007015)the Natural Science Fund for Excellent Young Scholars of Hainan Province,China(No.324YXQN421)。
文摘Isomorphic substitution of ferric ion(Fe~(3+))by aluminum ion(Al~(3+))in iron(hydro)oxides is ubiquitous in natural environments.Aluminum substitution inevitably leads to changes in the microstructures,physicochemical properties,and surface reactions of iron(hydro)oxides,which may have great impacts on the sequestration of nutrients and contaminants in soils and aquatic environments.Over the past decades,the structural properties and surface reactivity of Al-substituted iron(hydro)oxides have been intensively studied.Iron(hydro)oxides in various structural forms and with different Al substitution amounts present high application potentials in addressing environmental issues.A timely summary of the structural properties and interfacial reactions of the most common and representative Al-substituted iron(hydro)oxides is of significance.Herein,the effects of Al substitution on the structural properties and surface activities of iron(hydro)oxides were clarified according to the microstructure,crystal facets,surface site type and density,interfacial reaction mechanisms,and modeling parameters of iron(hydro)oxides.This review systematically elucidates how Al substitution affects the structural properties and surface reactions of iron(hydro)oxides,including the well crystallized goethite and hematite and the poorly crystallized ferrihydrite,providing theoretical guidance for further exploration of the mineralogical characteristics and environmental geochemical behaviors of iron(hydro)oxides.
基金supported by the National Natural Science Foundation of China(82404798)the Natural Science Foundation of Sichuan Province(2024NSFSC1831)+1 种基金the National Key Laboratory for Tropical Crop Breeding(NKLTCB-RC202403,NKLTCBZRJJ4)the Hainan Seed Industrial Laboratory(B22C1000P).
文摘Base editors are essential tools for precise genome editing in plants.However,achieving high efficiency in C-to-G editing while minimizing byproduct and offtarget mutations remains challenging.In this study,we present the development and evaluation of a novel glycosylase-based cytosine base editor(gCBE)for efficient C-to-G editing in rice.Unlike traditional cytosine base editors,which rely on cytosine deamination,gCBE directly excises cytosine to generate an apurinic/apyrimidinic(AP)site,thus circumventing the deamination step and reducing the production of C-to-T byproducts.We constructed several gCBE variants,including N-gCBE,M-gCBE,and C-gCBE,by fusing engineered human UDG2(UNG*)to SpCas9 nickase(nSpCas9,D10A)and tested their editing efficiency and specificity in rice.Our results demonstrate that M-gCBE achieved efficient C-to-G editing(6.3%to 37.5%)similar to OsCGBE(9.4%to 28.1%)at most targets,though with site-dependent variations.Notably,gCBE tools showed a marked reduction in C-to-T byproducts,with average C-to-T mutation rates of 12.5%for N-gCBE and 16.7%for M-gCBE,compared to 53.1%for OsCGBE.Notably,both N-gCBE and M-gCBE were capable of generating homozygous C-to-G mutations in the T_(0)generation,a key advantage over OsCGBE,which predominantly generated C-to-T mutations.Off-target analysis revealed minimal off-target effects with M-gCBE,highlighting its potential for high-precision genome editing.These findings suggest that gCBE tools,particularly M-gCBE,are highly efficient and precise,providing an advanced solution for C-to-G editing in plants and offering promising applications for crop improvement.
基金funded by the Hainan Province Science and Technology Special Fund[grant number ZDKJ2021012]the National Key R&D Programof China[grant number 2023YFD2300801]received by Fei Qiaothe Ongoing Research Funding Program(ORF-2025-751),King Saud University,Riyadh,Saud Arabia.
文摘Mango(Mangifera indica L.cv.‘Keitt’)is one of the core fruit delicacies produced by China.During the post-harvest storage span,the fungal pathogen colletotrichum gloeosporioides readily invades the fruits and leads to a significant overall yield loss.In recent years of development,the exploitation of naturally occurring fungitoxic compounds such as Sandalwood Essential Oil(SEO)has been useful in tackling various fungal species.This study demonstrates the potential of SEO as part of a storage protection strategy against C.gloeosporioides-induced postharvest anthracnose.SEO displayed a relatively higher mycelial growth inhibition rate when compared to various other essential oils.Furthermore,the Minimal Inhibitory Concentration(MIC),Minimum Fungicidal Concentration(MFC),and EC_(50)(Half maximal effective concentration)of SEO were determined to be 2000,2500,and 610.38μL/L,respectively.Moreover,the chitosan glutamate-SEO emulsion controlled the anthracnose spread for several days by multiple folds at½MIC,MIC,and 2 MIC concentrations.These results strongly support the potential for largescale production and application of SEO emulsions by agrochemical firms and post-harvest storage facilities handling Keitt mangoes.
基金supported by the National Key R&D Program of China(2022YFF1000100)Shaanxi Innovation Team Project(2022TD-10)+1 种基金Shaanxi Livestock and Poultry Breeding Double-chain Fusion Key Project(2022GD-TSLD-46-0401)Postdoctoral Research Funding of Hainan Province。
文摘Coat color polymorphism in domestic animals provides a robust framework for elucidating mechanisms of species adaptation,domestication,and genomic diversity.Leiqiong cattle,a representative indicine breed from southern China,are predominantly yellow-coated,although a subset exhibits a solid black phenotype.To determine the genetic basis of this variation,a genome-wide association study(GWAS)was performed in 212 Leiqiong bulls.A pronounced association signal was detected on chromosome 6 within the fifth intron of the CORIN gene,providing the first evidence of the potential influence of CORIN on bovine coat color variation.Integration of these results with publicly available genomic datasets and haplotype analyses indicated that the yellow coat phenotype is derived from Indian indicine ancestry,whereas the black coat phenotype emerged through introgression from wild bovine lineages and artificial hybridization with Wagyu cattle.Comparative analysis of Indian indicine cattle with divergent coat colors revealed distinct LEF1 haplotypes within a shared CORIN background,suggesting an ancient and complex domestication history underlying coat color variation.These findings provide direct evidence that introgression has shaped phenotypic variation in East Asian cattle and offer novel insights into the genetic architecture of pigmentation,with implications for future breeding strategies.
文摘Background The bromodomain(BRD) proteins play a pivotal role in regulating gene expression by recognizing acetylated lysine residues and acting as chromatin-associated post-translational modification-inducing proteins. Although BRD proteins have been extensively studied in mammals, they have also been characterized in plants like Arabidopsis thaliana and Oryza sativa, where they regulate stress-responsive genes related to drought, salinity, and cold. However, their roles in cotton species remain unexplored.Results In this genome-wide comparative analysis, 145 BRD genes were identified in the tetraploid species(Gossypium hirsutum and G. barbadense), compared with 82 BRD genes in their diploid progenitors(G. arboreum and G. raimondii), indicating that polyploidization significantly influenced BRD gene evolution. Gene duplication analysis revealed 78.85% of duplications were segmental and 21.15% were tandem among 104 in-paralogous gene pairs, contributing to BRD gene expansion. Gene structure, motif, and domain analyses demonstrated that most genes were intron-less and conserved throughout evolution. Syntenic analysis revealed a greater number of orthologous gene pairs in the Dt sub-genome than in the At sub-genome. The abundance of regulatory, hormonal, and defense-related cis-regulatory elements in the promoter region suggests that BRD genes play a role in both biotic and abiotic stress responses. Protein-protein interaction analysis indicated that global transcription factor group E(GTE) transcription factors regulate BRD genes. Expression analysis revealed that BRD genes are predominantly involved in ovule development, with some genes displaying specific expression patterns under heat, cold, and salt stress. Furthermore, qRT-PCR analysis demonstrated significant differential expression of BRD genes between the tolerant and sensitive genotype, underscoring their potential role in mediating drought and salinity stress responses.Conclusions This study provides valuable insights into the evolution of BRD genes across species and their roles in abiotic stress tolerance, highlighting their potential in breeding programs to develop drought and salinity tolerant cotton varieties.
基金Supported by National Key Technology R&D Program"Breeding of New Varieties of Mango and Litchi"(2013BAD02B02-5)
文摘A hybrid Ft population was obtained by crossing between mango cultivars ' Jinhuang' and ' Guifei'. Among the hybrid population, 98 F1 plants were selected as the mapping population. The molecular genetic map of mango was constructed by linkage analysis by SRAP, AFLP and ISSR markers using Joinmap4. 0 software. The genetic linkage map consisted of 33 linkage groups, with a total genetic distance of 1 561.1 cM. Moreover, the genetic linkage map involved 245 polymorphic markers, including 149 SRAP markers, 90 AFLP markers and 6 ISSR markers, with an average genetic distance of 6.37 cM. This study laid a founda- tion for further investigation of the important agronomic traits of mango.
文摘Using degenerate oligonucleotide primers and genomic PCR reactions,the complete coding region sequences of two 1Ay high molecular weight(HMW)glutenin subunit genes were amplified from Triticum urartu accessions that showed differential expression of the 1Ay HMW glutenin subunits in their seeds.The coding sequence amplified from the accession that expressed the 1Ay gene(Tu1Ay-e)was highly homologous to that of known y type HMW glutenin subunit genes.Consequently,the primary structure of the protein translated from the coding sequence of Tu/Ay-e was identical to that of previously published y type subunits.Bacterial expression of the coding sequence of Tu/Ay-e produced a polypeptide identical to the 1Ay subunit extracted from seeds,indicating that the cloned sequence was an accurate representation of the original coding region of Tu/Ay-e.In contrast,the coding region sequence amplified from the accession that did not express 1Ay subunit contained three in-frame premature stop codons.Based on past findings on silenced HMW glutenin subunit genes,we conclude that the presence ofin-frame premature stop codon(s)is an important feature of the silenced 1Ay gene(Tu1Ay-s)in T.urartuThe potential value of the active 1Ay gene in improving the end use quality of common wheat and the mechanism underlying 1Ay gene silencing are discussed.
基金Supported by National Nonprofit Institute Research Grant of CATAS-TCGRI(1630032013010)Special Fund for Agro-scientific Research in the Public Interest(201203092)
文摘Under off-season production mode, change laws of nutritive materials in leaves of fruiting mother branches of mango in flowering process induced by dif- ferent agents were investigated. The results showed that the flowering time of manga trees in the potassium nitrate treatment was earlier than the ethephon treatment by 7 d, and changes trends of materials in leaves of the potassium nitrate and ethephon treatments were substantially the same. The nutritive materials in leaves showed trends of increasing at first and decreasing then. In early flower bud differentiation stage, soluble sugar and starch in leaves increased rapidly, and content of soluble protein also increased rapidly and showed its their peak values, thereby providing energy substances and structural substances demanded by flower bud formation. With flower bud differentiation going on, soluble sugar, starch and soluble protein decreased gradually. It was indicated that the accumulation of soluble sugar, starch and soluble protein is beneficial to flower bud differentiation.
基金Supported by Hainan Natural Science Foundation(311077)
文摘Through field plot experiment,we research the influencing factors of cowpea yield and quality after applying boron and molybdenum microelement fertilizer. Results show that the application of boron and molybdenum microelement fertilizer can significantly increase the yield and improve the quality of cowpea. Compared with the control,yield per mu increases by 5. 08- 18. 86%; N content increases by 4. 27%-11. 28%; P content increases by 2. 13%- 13. 57%; K content increases by 2. 00%- 18. 48%; crude protein increases by 4. 16%-19. 94%; vitamin C increases by 2. 71%- 11. 79%; nitrate content decreases by 5%- 15%. Besides,it is better to combine boron with molybdenum than to use each of them separately.
基金supported financially by the Hainan Provincial Natural Science Foundation of China(No.2018CXTD344)the Central Public-Interest Scientific Institution Basal Research Fund for the Chinese Academy of Tropical Agricultural Sciences(Nos.1630032017074 and 1630032017024).
文摘Proanthocyanidins(PAs),also known as“condensed tannins”,are colorless metabolites produced through the flavonoid pathway that are involved in stress resistance in plants.Because PAs are involved in the anthocyanin biosynthetic pathway,they play a role in the modification of pigmentation conferred by anthocyanins in ornamental organs.In this study,we isolated the gene and functionally characterized an R2R3-MYB transcription factor(TF),AaMYB3,and a basic helix-loop-helix TF,AabHLH1,from Anthurium andraeanum(Hort.),a typical tropical flower.AaMYB3 is primarily expressed in the spathe and negatively correlates with anthocyanin accumulation.A complementation test in an Arabidopsis tt8 mutant showed that AabHLH1 successfully restores the PA-deficient seed coat phenotype.The ectopic overexpression of AaMYB3 alone or its coexpression with AabHLH1 in transgenic tobacco resulted in light pink or even pale-pink corolla limbs by reducing their anthocyanin levels and greatly enhancing their accumulation of PAs.This overexpression of the anthurium TF genes upregulated the late anthocyanin enzymeencoding genes(NtDFR and NtANS)and the key PA genes(NtLAR and NtANR)in transgenic tobacco.The interaction between AaMYB3 and the AabHLH1 protein was confirmed using yeast two-hybrid(Y2H)and bimolecular fluorescence complementation(BiFC)assays.In the developing red spathes of the cultivars“Vitara”and“Tropical”,the expression of AaMYB3 was closely linked to PA accumulation,and AaMYB3 was coexpressed with AaCHS,AaF3H,AaDFR,AaANS,AaLAR,and AaANR.The expression pattern of AabHLH1 was similar to that of AaF3′H.Our results suggest that AaMYB3 and AabHLH1 are involved in the regulation of PA biosynthesis in anthurium and could potentially be used to metabolically engineer PA biosynthesis in plants.
基金Supported by National Natural Science Foundation of China(31601758)Financial Fund of the Ministry of Agriculture and Rural Affairs,P.R. of China(NFZX2018)Innovation Team Project of Chinese Academy of Tropical Agricultural Sciences(1630032017027)
文摘With the increase of growing area of bitter gourd, Fusarium wilt has become one of the most important diseases in bitter gourd production, seriously affecting the yield and quality of bitter gourd. The occurrence regularity of bitter gourd Fusarium wilt was expounded, and the research status of agricultural control, chemical control and biological control were summarized, so as to provide the reference for safe and efficient production of bitter gourd.
