A characteristic common to herpesviruses is the ability to establish a latent infection in the hosts, a transcriptionally active region has detected during latency as well as a set of RNA that are known as Latency Ass...A characteristic common to herpesviruses is the ability to establish a latent infection in the hosts, a transcriptionally active region has detected during latency as well as a set of RNA that are known as Latency Associated Transcripts (LATs), their functions have been clarified in recent work. The present work was carried using different bioinformatics method in order to determine if Herpesvirus Canine 1 (CHV-1) has a region associated with latency. Our result was the selection of nine sequences candidate of micro RNA (miRNA) (MIREval 2.0 software), and 26 miRNA (miRNAFold v.1.0 software), of them, were selected 14 with real precursors of miRNA, two were found between the RL2 and RS1 genes, one in the RL2 gene and 11 in the RS1 gene. The results showed that the similarities of these regions are very low among the herpesviruses analyzed, so it was not possible to deduce the presence of the LAT gene in canine herpesvirus type 1 with bioinformatics. On the other hand, the comparison showed that the miRNA predicted: chv1-mir-mirnafold-8 has similarity with the ebv-mir-BART7-3p of Epstein-Barr Virus (EBV), in this way, the microRNAs predicted by means of bioinformatic programs met the theoretical requirements of these molecules, however at not having a degree of preservation in other herpesviruses, the expression by CHV-1 in latency cannot be confirmed and it is necessary to identify through experimental tests.展开更多
Zanthoxylum bungeanum is an economically important crop worldwide due to its high content of aroma-producing monoterpenoids,and development of varieties with enhanced flavor and overall quality is a crucial research a...Zanthoxylum bungeanum is an economically important crop worldwide due to its high content of aroma-producing monoterpenoids,and development of varieties with enhanced flavor and overall quality is a crucial research area.However,the transcriptional regulatory mechanisms underlying monoterpenoid synthesis in Z.bungeanum remain unclear,hindering these breeding efforts.In this study,RNA sequencing,gas chromatography–mass spectrometry,and other molecular biology techniques were used to identify the underlying transcriptional regulation mechanisms.Two transcription factors,ZbbHLH2 and ZbERF6,were identified as key regulators of monoterpenoid synthesis in Z.bungeanum that upregulate various monoterpenoid synthesis-associated genes and are novel transcriptional activators of ZbIDI,which encodes the rate-limiting enzyme in plant monoterpenoid synthesis.Functional analysis revealed that the expression of three genes[1]modulates monoterpenoid accumulation in Z.bungeanum peel.These findings provide novel insights into the metabolic regulatory network of monoterpenoid synthesis in Z.bungeanum peel,offer potential strategies for the biofortification of specific monoterpenoids,and will promote the development of Z.bungeanum germplasm for targeted breeding and quality improvement.展开更多
Background:The regulatory mechanisms governing vasculogenic mimicry(VM)in oral squamous cell carcinoma(OSCC)remain largely undefined.This study aimed to identify critical factors and elucidate the epigenetic mechanism...Background:The regulatory mechanisms governing vasculogenic mimicry(VM)in oral squamous cell carcinoma(OSCC)remain largely undefined.This study aimed to identify critical factors and elucidate the epigenetic mechanisms underlying VM in OSCC.Methods:Bioinformatics analysis was performed utilizing single-cell RNA-seq,bulk RNA-seq,and histone H3 lysine 27 acetylation(H3K27ac)Chromatin Immunoprecipitation(ChIP)-seq data obtained from The Cancer Genome Atlas(TCGA)and Gene Expression Omnibus(GEO)databases.ChIP-qPCR was used to validate the binding of ETS transcription factor ELK4(ELK4)to the dihydrofolate reductase(DHFR)enhancer.In vitro VM formation and invasion of OSCC cells were assessed using Matrigel-based tube formation and Transwell assays,respectively.Results:Elevated expression of VM-related genes predicts unfavorable prognosis in OSCC patients.High-dimensional weighted gene co-expression network analysis(hdWGCNA)identified epithelial subcluster C4 as most strongly associated with VM and metastasis.Three co-expression modules within this subcluster exhibited significant positive correlations with both phenotypic traits.Among the 30 eigengenes from the three modules,DHFR emerged as a key regulator of VM and metastasis.Knockdown or inhibition of DHFR significantly suppressed VM formation and invasion in OSCC cells.Mechanistically,ELK4 activated DHFR transcription through direct binding to its enhancer.DHFR overexpression rescued VM and invasion impairment induced by ELK4 knockdown.Conclusion:DHFR was a pivotal enhancer-regulated gene driving VM and metastasis in OSCC.ELK4 directly binds to DHFR enhancer regions to activate its transcription,thereby promoting these malignant phenotypes.These findings identified the ELK4/DHFR axis as a promising therapeutic target for anti-angiogenic intervention in OSCC.展开更多
Objective The basic helix-loop-helix(bHLH)transcription factors(TFs)are pivotal in regulating fungal growth,development,and secondary metabolism.However,the knowledge about the Ganoderma lucidum bHLHs(GlbHLHs)in ganod...Objective The basic helix-loop-helix(bHLH)transcription factors(TFs)are pivotal in regulating fungal growth,development,and secondary metabolism.However,the knowledge about the Ganoderma lucidum bHLHs(GlbHLHs)in ganoderic acid(GA)biosynthesis of G.lucidum was limited.This study aimed to explore the functions of bHLH genes in ganoderic acid biosynthesis during G.lucidum growth development.Methods First,the genome-wide identification of GlbHLHs was performed through Hidden Markov model searches and Two-way blast.Furthermore,through physicochemical properties,gene structure,and phylogenetic analysis,as well as combining the transcriptome and metabolome data from different developmental stages of G.lucidum,candidate GlbHLHs were screened.Subsequently,their regulatory roles in ganoderic acid biosynthesis were explored using yeast one-hybrid and dual-luciferase reporter assays.Results A total of 11 GlbHLH members were characterized in G.lucidum.The upstream promoter regions of these genes enriched hormones and abiotic stress responsive elements.Although individual ganoderic acid monomers demonstrated marked differences in accumulation patterns across specific growth phases and tissue types,overall,the total GA content was consistently higher in caps than in stipes throughout development.In addition,all GlbHLHs exhibited high expression in whole G.lucidum from the primordium to maturation stages.Among them,GlbHLH5 and GlbHLH7 showed the highest expression in any stage and highly correlated with key genes associated with GA pathway.Functional validation through dual-luciferase assays and yeast one-hybrid experiments had demonstrated that GlbHLH5 activated the P2 region of the lanosterol synthase promoter,while GlbHLH7 activated the promoters of squalene epoxidase and squalene synthase.Conclusion Compared to plants,G.lucidum harbored a small number of bHLH members but all high expression in any stages.Additionally,GlbHLH5 and GlbHLH7 with the highest expression among GlbHLHs showed activation in regulating the biosynthesis of GA.These results provide a theoretical reference for further research on ganoderic acid regulation in G.lucidum,and thereby providing a molecular foundation for enhancing ganoderic acid yield to optimize the medicinal value of G.lucidum.展开更多
AIM:To investigate whether vaccinia-related kinase 1(VRK1)mediates transforming growth factor-beta2(TGF-β2)-caused epithelial-mesenchymal transition(EMT)and inflammatory responses in retinal pigment epithelial(RPE)ce...AIM:To investigate whether vaccinia-related kinase 1(VRK1)mediates transforming growth factor-beta2(TGF-β2)-caused epithelial-mesenchymal transition(EMT)and inflammatory responses in retinal pigment epithelial(RPE)cells through regulating snail family transcriptional repressor 1(SNAI1),and to validate its role in a proliferative vitreoretinopathy(PVR)mouse model.METHODS:Human RPE cell line ARPE-19 cells were treated with TGF-β2 to construct an EMT model.Western blot detected VRK1 level.The effects of VRK1 on SNAI1 expression and biological behavior of ARPE-19 cells were detected by immunofluorescence,ELISA,Transwell,and scratch assay,and the interaction between VRK1 and SNAI1 was confirmed through immunoprecipitation.A PVR mouse model was constructed,and the effects of VRK1 or/and SNAI1 on retinal damage were assessed by pathologic staining.Inflammatory factors and EMT-related proteins were assessed with ELISA and Western blot.RESULTS:VRK1 was upregulated in ARPE-19 cells after TGF-β2 treatment.Overexpression of VRK1 increased cell viability,promoted cell migration and EMT,and the levels of inflammatory factors.Silencing of VRK1 reversed the above indexes.There was a direct interaction between VRK1 and SNAI1,and overexpresssion SNAI1 weakened the impacts of silencing of VRK1.In PVR mice,silencing of VRK1 ameliorated retinal structural damage,decreased proinflammatory factor levels,and suppressed SNAI1 and mesenchymal marker expression.SNAI1 overexpression antagonized the protective effects of silencing VRK1 and exacerbated EMT and inflammatory responses.CONCLUSION:VRK1 plays a key role in retinal structural and inflammatory damage in PVR mice by regulating SNAI1 and mediating TGF-β2-caused EMT and inflammatory responses in RPE cells.展开更多
Objective:Leucine-rich alpha-2 glycoprotein 1(Lrg1)could regulate diverse cells in cerebral ischemiareperfusion.Our study seeks to uncover Lrg1’s impact on endothelial cell heterogeneity via differentiation pathways ...Objective:Leucine-rich alpha-2 glycoprotein 1(Lrg1)could regulate diverse cells in cerebral ischemiareperfusion.Our study seeks to uncover Lrg1’s impact on endothelial cell heterogeneity via differentiation pathways and transcription factors.Method:The CSOmap model measured cell-to-brain-center distances using single-cell RNA sequencing(scRNA-seq)data in middle cerebral artery occlusion reperfusion(MCAO/R).Monocle2 mapped endothelial differentiation paths.Gene set enrichment analysis(GSEA)analyzed endothelial subcluster variations.Database searches revealed a zinc finger MIZ-type containing 1 protein-frizzled 3(Zmiz1-Fzd3)promoter interaction.Endothelial cells were transfected with a Fzd3 promoter-luciferase plasmid.Polymerase chain reaction(PCR)and western blotting assessed MCAO/R or Zmiz1 overexpression effects on Fzd3-related mRNA and proteins.A retroviral vector carrying Zmiz1 was injected into the brains of mice to study its effect on Fzd3.Result:Lrg1−/−mice exhibited elevated cell adhesion proteins and decreased microvascular leakage after MCAO/R.CSOmap showed widened astrocyte spacing in thesemice.RSS revealed Zmiz1 overexpression inMCAO/R+Lrg1−/−mice.MCAO/R and pcDNA3-Zmiz1 transfection both enhanced luciferase activity with Fzd3,indicating Zmiz1 binding to Fzd3.Retroviral Zmiz1 injection or knockdown disrupted ischemic brain tight junctions,highlighting Zmiz1’s key role in blood-brain barrier protection,likely through Fzd3 pathway modulation.Conclusion:The findings indicate Lrg1 knockout induces endothelial differentiation by activating Zmiz1,which is crucial for maintaining blood-brain barrier function,possibly via modulating the Fzd3 pathway.展开更多
Objectives:The current treatment options and therapeutic targets for triple-negative breast cancer(TNBC),an aggressive subtype of breast cancer(BrCA),are limited.This study aimed to identify novel biomarkers and trans...Objectives:The current treatment options and therapeutic targets for triple-negative breast cancer(TNBC),an aggressive subtype of breast cancer(BrCA),are limited.This study aimed to identify novel biomarkers and transcriptional regulatory networks(TRN)inherent in TNBC samples.Methods:We analyzed pan-cancer BrCA datasets from The Cancer Genome Atlas(TCGA)to compare triple-positive breast cancer(TPBC)with TNBC.TRN algorithms and virtual inference of protein-enriched regulon(VIPER)were used to identify master regulators and their target genes.Utilizing TNBC cells(MDA-MB-231 and MDA-MB-468),we validated the relationship of nuclear factor erythroid 2-like 3(NFE2L3)and basic helix-loop-helix family member E 40(BHLHE40)by performing a luciferase assay.The expression levels of these targets were measured after transfections with plasmid and siRNA via qRT-PCR and western blots.The effect of these genes on cell proliferation and migration was studied using phenotypic assays.Results:Using computational approaches,we identified NFE2L3 as a master regulator with BHLHE40 as its target gene.NFE2L3 protein binds to the promoter region of BHLHE40 and regulates its transcriptional activity.Additionally,silencing and overexpressing NFE2L3 and BHLHE40 in TNBC cell lines MDA-MB-231 and MDA-MB-468 showed that NFE2L3 directly regulates BHLHE40 at both transcriptional and translational levels.We found that BHLHE40 requires NFE2L3 for cell proliferation and migration in TNBC.Conclusion:These findings underscore the significance of NFE2L3 and BHLHE40 in TNBC,highlighting NFE2L3’s role in regulating the oncogenic activity of BHLHE40 in TNBC cells.展开更多
AIM: To evaluate the diagnostic and prognostic value of circulating Metastasis Associated in Colon Cancer 1(MACC1) transcripts in plasma of gastric cancer patients.METHODS: We provide for the first time a blood-based ...AIM: To evaluate the diagnostic and prognostic value of circulating Metastasis Associated in Colon Cancer 1(MACC1) transcripts in plasma of gastric cancer patients.METHODS: We provide for the first time a blood-based assay for transcript quantification of the metastasis inducer MACC1 in a prospective study of gastric cancer patient plasma.MACC1 is a strong prognostic biomarker for tumor progression and metastasis in a variety of solid cancers.We conducted a study to define the diagnostic and prognostic power of MACC1 transcripts using 76 plasma samples from gastric cancer patients,either newly diagnosed with gastric cancer,newly diagnosed with metachronous metastasis of gastric cancer,as well as follow-up patients.Findings were controlled by using plasma samples from 54 tumor-free volunteers.Plasma was separated,RNA was isolated,and levels of MACC1 as well as S100A4 transcripts were determined by quantitative RT-PCR.RESULTS: Based on the levels of circulating MACC1 transcripts in plasma we significantly discriminated tumorfree volunteers and gastric cancer patients(P < 0.001).Levels of circulating MACC1 transcripts were increased in gastric cancer patients of each disease stage,compared to tumor-free volunteers: patients with tumors without metastasis(P = 0.005),with synchronous metastasis(P = 0.002),with metachronous metastasis(P = 0.005),and patients during follow-up(P = 0.021).Sensitivity was 0.68(95%CI: 0.45-0.85) and specificity was 0.89(95%CI: 0.77-0.95),respectively.Importantly,gastric cancer patients with high circulating MACC1 transcript levels in plasma demonstrated significantly shorter survival whencompared with patients demonstrating low MACC1 levels(P = 0.0015).Furthermore,gastric cancer patients with high circulating transcript levels of MACC1 as well as of S100A4 in plasma demonstrated significantly shorter survival when compared with patients demonstrating low levels of both biomarkers or with only one biomarker elevated(P = 0.001).CONCLUSION: Levels of circulating MACC1 transcripts in plasma of gastric cancer patients are of diagnostic value and are prognostic for patient survival in a prospective study.展开更多
As part of our efforts to identify novel contraceptive targets in the epididymis we performed transcriptional profiling on each of the 10 and 19 segments of the mouse and rat epididymidis, respectively, using Affymetr...As part of our efforts to identify novel contraceptive targets in the epididymis we performed transcriptional profiling on each of the 10 and 19 segments of the mouse and rat epididymidis, respectively, using Affymetrix whole genome microarrays. A total of 17 096 and 16 360 probe sets representing transcripts were identified as being expressed in the segmented mouse and rat epididymal transcriptomes, respectively. Comparison of the expressed murine transcripts against a mouse transcriptional profiling database derived from 22 other mouse tissues identified 77 transcripts that were expressed uniquely in the epididymis. The expression of these genes was further evaluated by reverse transcription polymerase chain reaction (RT-PCR) analysis of RNA from 21 mouse tissues. RT-PCR analysis confirmed epididymis-specific expression of Defensin Beta 13 and identified two additional genes with expression restricted only to the epididymis and testis. Comparison of the 16 360 expressed transcripts in the rat epididymis with data of 21 other tissues from a rat transcriptional profiling database identified 110 transcripts specific for the epididymis. Sixty-two of these transcripts were further investigated by qPCR analysis. Only Defensin 22 (E3 epididymal protein) was shown to be completely specific for the epididymis. In addition, 14 transcripts showed more than 100-fold selective expression in the epididymis. The products of these genes might play important roles in epididymal and/or sperm function and further investigation and validation as contraceptive targets are warranted. The results of the studies described in this report are available at the Mammalian Reproductive Genetics (MRG) Database (http://mrg. genetics.washington.edu/). (Asian J Androl 2007July; 9: 522-527)展开更多
MicroRNAs (miRNAs) are endogenous 22-nt RNAs, which play important regulatory roles by post-transcriptional gene silencing. A computational strategy has been developed for the identification of conserved miRNAs base...MicroRNAs (miRNAs) are endogenous 22-nt RNAs, which play important regulatory roles by post-transcriptional gene silencing. A computational strategy has been developed for the identification of conserved miRNAs based on features of known metazoan miRNAs in red flour beetle (Tribolium castaneum), which is regarded as one of the major laboratory models of arthropods. Among 118 putative miRNAs, 47% and 53% of the predicted miRNAs from the red flour beetle are harbored by known protein-coding genes (intronic) and genes located outside (intergenic miRNA), respectively. There are 31 intronic miRNAs in the same transcriptional orientation as the host genes, which may share RNA polymerase II and spliceosomal machinery with their host genes for their biogenesis. A hypothetical feed-back model has been proposed based on the analysis of the relationship between intronic miRNAs and their host genes in the development of red flour beetle.展开更多
The cooperative principle put forward by Grice is an important part of pragmatics.The four maxims included in the cooperative principle are effective in analyzing people's conversation,and sometimes the violations...The cooperative principle put forward by Grice is an important part of pragmatics.The four maxims included in the cooperative principle are effective in analyzing people's conversation,and sometimes the violations of the four maxims can often generate the implicit meaning of conversation,which called conversational implicature,or achieve certain communicative effects such as humor,irony and so on.This article tries to analyze some transcripts from a popular TV series of America called Desperate Housewives season I from the perspective of cooperative principle to show how to infer the conversational implicature and communicative effects of people's conversation with cooperative principle.展开更多
Previous studies have shown that high light intensity can induce anthocyanin synthesis(AS)in petunia plants.To identifywhich kind of light quality plays a role in inducing such metabolic process,and what transcripts p...Previous studies have shown that high light intensity can induce anthocyanin synthesis(AS)in petunia plants.To identifywhich kind of light quality plays a role in inducing such metabolic process,and what transcripts participate in controlling it,we carried out whole-transcriptome sequencing and analysis of petunia petals treated with different light-quality conditions.Among the red and white light treatments,a total of 2205 differentially expressed genes and 15,22,and 20 differentially expressed circRNAs,miRNAs,and lncRNAs,were identified respectively.The AS-related genes,including the structural genes CHSj,F3H,F35H,DFR,and ANS,and the regulatory genes AN4,DPL,PHZ and MYBx were found to be downregulated under red light condition compared with their levels under white light condition.Furthermore,the light photoreceptor Cryptochrome 3(CRY3)and a series of light-dependent genes,such as PIF,HY5,andBBXs,were also determined to respond to the light treatments.The anthocyanin contents in early petunia petals under red light were significantly lower than that under white and blue light.The results of qRT-PCR further confirmed the expression pattern of some AS-related and light-response genes in response to different light quality.Yeast two-hybrid results showed that the key elements in the light signal pathway,HY5 can interact with BBX19,BBX24 and BBX25.And PHZ,the important AS regulator can induce anthocyanin synthesis in response to blue light quality fromtransient expression analysis in petunia petals.These findings presented here not only deepen our understanding of how light quality controls anthocyanin synthesis,but also allow us to explore potential target genes for improving pigment production in petunia flower petals.展开更多
The human promyelocytic cell line HL-60 overexpresses the c-myc protooncogene. Plasmid pDACx carrying antisense human c-myc DNA and neo gene was introduced into HL-60 cells with lipofectin reagent. Upon DNA entering t...The human promyelocytic cell line HL-60 overexpresses the c-myc protooncogene. Plasmid pDACx carrying antisense human c-myc DNA and neo gene was introduced into HL-60 cells with lipofectin reagent. Upon DNA entering the tar-geted celis and expression of antisense transcripts to c-myc, C-MYC protein level, cell proliferation and colony-forming potentiality were all definitely inhibited.展开更多
Zea nicaraguensis, a wild relative of cultivated maize (Zea mays subsp, mays), is considered to be a valuable germplasm to improve the waterlogging tolerance of cultivated maize. Use of reverse genetic-based gene cl...Zea nicaraguensis, a wild relative of cultivated maize (Zea mays subsp, mays), is considered to be a valuable germplasm to improve the waterlogging tolerance of cultivated maize. Use of reverse genetic-based gene cloning and function verifi- cation to discover waterlogging tolerance genes in Z. nicaraguensis is currently impractical, because little gene sequence information for Z. nicaraguensis is available in public databases. In this study, Z. nicaraguensis seedlings were subjected to simulated waterlogging stress and total RNAs were isolated from roots stressed and non-stressed controls. In total, 80 mol L-1 Illumina 100-bp paired-end reads were generated. De novo assembly of the reads generated 81 002 final non-re- dundant contigs, from which 5 261 full-length transcripts were identified. Among these full-length transcripts, 3 169 had at least one Gene Ontology (GO) annotation, 2 354 received cluster of orthologous groups (COG) terms, and 1 992 were assigned a Kyoto encyclopedia of genes and genomes (KEGG) Orthology number. These sequence data represent a valuable resource for identification of Z. nicaraguensis genes involved in waterlogging response.展开更多
Aim: To determine the possible roles of the t-complex testis expressed gene 5 (Tctex5) on sperm functions, the fulllength sequence of mRNA was studied and compared in the testis between the normal wild-type and the...Aim: To determine the possible roles of the t-complex testis expressed gene 5 (Tctex5) on sperm functions, the fulllength sequence of mRNA was studied and compared in the testis between the normal wild-type and the sterile t-haplotype mutant mice. Methods: We applied rapid amplification of cDNA ends, Northern blot and reverse transcription polymerase chain reaction to analyze the full length of Tctex5 mRNAs isolated from testes of the wild-type and the t-haplotype mice. Reverse transcription polymerase chain reaction was used to semi-quantitatively compare expression of Tctex5 transcripts in the 16 tissues and 9.5 day stage embryos in the wild-type mice. E-translation was applied to estimate the amino acid sequences. Results: One long and one short transcript of Tctex5 mRNA were discovered in mouse testis of wild-type (Tctex5^long-+ and Tctex5^short-+) and t-haplotype (Tctex5^long-+ and Tctex5^short-+) mice, respectively. Being enhanced only in the testis, Tctex5^long-+ had 17 point mutations and one 15-bp-deletion in the exon 1 region, comparing with the Tctex5^long-+, whereas the Tctex5^short-+ was similar to the Tctex5^short-+. The short isoforms of Tctex5 mRNAs in the two models encoded exactly the same peptides, but the long isoforms did not. The estimated peptide encoded by Tctex5^long-+ had significant mutations on putative sites of phosphorylation and PP1 binding. Conclusion: We established that mutations that occur in the Tctex5 long transcript of the t-haplotype mice are important for normal sperm function, whereas the short transcript of Tctex5 might have a conserved function among different tissues. (Asian J Androl 2008 Mar; 10: 219-226)展开更多
The importance of microRNA (miRNA) at the post-transcriptional regulation level has recently been recognized in both animals and plants. In recent years, many studies focused on miRNA target identification and funct...The importance of microRNA (miRNA) at the post-transcriptional regulation level has recently been recognized in both animals and plants. In recent years, many studies focused on miRNA target identification and functional analysis. However, little is known about the transcription and regulation of miRNAs themselves. In this study, the transcription start sites (TSSs) for 11 miRNA primary transcripts of soybean from 11 miRNA loci (of 50 loci tested) were cloned by a 5" rapid amplification of cDNA ends (5" RACE) procedure using total RNA from 30-d-old seedlings. The features consistent with a RNA polymerase II mechanism of transcription were found among these miRNA loci. A position weight matrix algorithm was used to identify conserved motifs in miRNA core promoter regions. A canonical TATA box motif was identified upstream of the major start site at 8 (76%) of the mapped miRNA loci. Several cis-acting elements were predicted in the 2 kb 5" to the TSSs. Potential spatial and temporal expression patterns of the miRNAs were found. The target genes for these miRNAs were also predicted and further elucidated for the potential function of the miRNAs. This research provides a molecular basis to explore regulatory mechanisms of miRNA expression, and a way to understand miRNA-mediated regulatory pathways and networks in soybean.展开更多
A single mammalian transcript normally encodes one protein, but the transcript of GNAS (G-protein u-subunit) contains two reading frames and produces two structurally unrelated proteins, XLas and ALEX. No other conf...A single mammalian transcript normally encodes one protein, but the transcript of GNAS (G-protein u-subunit) contains two reading frames and produces two structurally unrelated proteins, XLas and ALEX. No other confirmed GNAS-Iike dual-coding transcripts have been reported to date, even though many such candidate genes have been predicted by bioinformatics analysis. In this study, we constructed a series of vectors to test how two protein products were translated from a single transcript in vitro. The length of the ORF (open reading frame), position of the first AUG and the Kozak motif were found to be important factors. These factors, as well as 55-bp NMD (nonsense-mediated mRNA decay) rule, were used in a bioinformatics search for candidate dual-coding transcripts. A total of 1307, 750 and 474 two-ORF-containing transcripts were found in human, mouse and rat, respectively, of which 170, 89 and 70, respectively, were found to be potential dual-coding transcripts. Most transcripts showed low conservation among species. Interestingly, dual-coding transcripts were significantly enriched for transcripts from the zinc-finger protein family, which are usually DNA-binding proteins involved in regulation of the transcription process.展开更多
Objectives: To define the involvement of CALM and AF10 fusion transcripts in primary leukaemias with t(10; 11). Methods: The AF10 and CALM fusion in five t(10; 11) leukemia samples were checked by reverse transcriptas...Objectives: To define the involvement of CALM and AF10 fusion transcripts in primary leukaemias with t(10; 11). Methods: The AF10 and CALM fusion in five t(10; 11) leukemia samples were checked by reverse transcriptase-polymerase chain reaction (RT-PCR), and effects of CALM/AF10 antisense phosphorothioate oligodeoxynucleotides (AS PS-ODNs) on chemotherapy sensitivity and apoptosis of leukemia cells in vitro were observed. Results: Five different-sized AF10-CALM products and four different-sized CALM/AF10 products were detected by RT-PCR. The chemotherapy sensitivity of leukemic cells with t(10; 11) to drugs in vitro was lower than that of leukemic cells without t(10; 11). AS PS-ODNs increased the chemotherapy sensitivity and apoptotic rate. There were 4 cases positive at 5 μmol/L concentration, all cases positive at 10 μmol/L and 20 μmol/L concentration, P<0.01 vs only chemotherapeutic drugs (3 cases positive), and chemotherapeutic drugs + S-PS-ODNs (10 μmol/L) (3 cases positive). After cells were treated with 10 μmol/L AS-PS-ODNs + chemotherapeutic drugs for 48 h, 72 h, 96 h, the apoptotic indexes were 14.22±2.86, 29.39±3.57, and 41.26±4.52, respectively. These were significantly higher than those of only chemotherapeutic drugs-treated cells and chemotherapeutic drugs + S-PS-ODNs-treated cells at corresponding time (P<0.01). There was no difference between only drugs group and S-PS-ODNs group at corresponding time (P>0.05). Conclusion: The CALM and AF10 fusion transcripts are involved in the pathogenesis of haematological malignancies with t(10, 11), and is associated with a poor prognosis. AS-PS-ODNs might be useful in therapy of t(10, 11) leukemia. Key words AF10 - CALM - Fusion transcript - Primary leukemia cell - In vitro sensitivity - Antisense oligodeoxynucleotide CLC number R733.7 Biography: LIU Ge-xiu (1968–), male, associate professor, Institute of Hematology, Medical College, Jinan University, majors in hematology.展开更多
Common wheat (Triticum aestivum L.) is one of the most important crops, and intra-specific wheat hybrids have obvious heterosis in yield and protein quality. Therefore, utilization of hybrid wheat varieties offers a...Common wheat (Triticum aestivum L.) is one of the most important crops, and intra-specific wheat hybrids have obvious heterosis in yield and protein quality. Therefore, utilization of hybrid wheat varieties offers an effective way to increase yield and nutrition. Cytoplasmic male sterility (CMS) systems are a useful genetic tool for hybrid crop breeding, and are ideal models for studying the genetic interaction and cooperative function of mitochondrial and nuclear genomes in plants (Schnable and Wise, 1998; Hanson and Bentolila, 2004).展开更多
High-throughput sequencing has identified a large number of sense-antisense transcriptional pairs, which indicates that these genes were transcribed from both directions. Recent reports have demonstrated that many ant...High-throughput sequencing has identified a large number of sense-antisense transcriptional pairs, which indicates that these genes were transcribed from both directions. Recent reports have demonstrated that many antisense RNAs, especially lnc RNA(long non-coding RNA), can interact with the sense RNA by forming an RNA duplex. Many methods, such as RNA-sequencing, Northern blotting, RNase protection assays and strand-specific PCR, can be used to detect the antisense transcript and gene transcriptional orientation. However, the applications of these methods have been constrained, to some extent, because of the high cost, difficult operation or inaccuracy, especially regarding the analysis of substantial amounts of data. Thus, we developed an easy method to detect and validate these complicated RNAs. We primarily took advantage of the strand specificity of RT-PCR and the single-strand specificity of S1 endonuclease to analyze sense and antisense transcripts. Four known genes, including mouse β-actin and Tsix(Xist antisense RNA), chicken LXN(latexin) and GFM1(Gelongation factor, mitochondrial 1), were used to establish the method. These four genes were well studied and transcribed from positive strand, negative strand or both strands of DNA, respectively, which represented all possible cases. The results indicated that the method can easily distinguish sense, antisense and sense-antisense transcriptional pairs. In addition, it can be used to verify the results of high-throughput sequencing, as well as to analyze the regulatory mechanisms between RNAs. This method can improve the accuracy of detection and can be mainly used in analyzing single gene and was low cost.展开更多
文摘A characteristic common to herpesviruses is the ability to establish a latent infection in the hosts, a transcriptionally active region has detected during latency as well as a set of RNA that are known as Latency Associated Transcripts (LATs), their functions have been clarified in recent work. The present work was carried using different bioinformatics method in order to determine if Herpesvirus Canine 1 (CHV-1) has a region associated with latency. Our result was the selection of nine sequences candidate of micro RNA (miRNA) (MIREval 2.0 software), and 26 miRNA (miRNAFold v.1.0 software), of them, were selected 14 with real precursors of miRNA, two were found between the RL2 and RS1 genes, one in the RL2 gene and 11 in the RS1 gene. The results showed that the similarities of these regions are very low among the herpesviruses analyzed, so it was not possible to deduce the presence of the LAT gene in canine herpesvirus type 1 with bioinformatics. On the other hand, the comparison showed that the miRNA predicted: chv1-mir-mirnafold-8 has similarity with the ebv-mir-BART7-3p of Epstein-Barr Virus (EBV), in this way, the microRNAs predicted by means of bioinformatic programs met the theoretical requirements of these molecules, however at not having a degree of preservation in other herpesviruses, the expression by CHV-1 in latency cannot be confirmed and it is necessary to identify through experimental tests.
基金supported by the National Natural Science Foundation of China(31872706)the National Key Research and Development Program of China(2019 YFD1000603).
文摘Zanthoxylum bungeanum is an economically important crop worldwide due to its high content of aroma-producing monoterpenoids,and development of varieties with enhanced flavor and overall quality is a crucial research area.However,the transcriptional regulatory mechanisms underlying monoterpenoid synthesis in Z.bungeanum remain unclear,hindering these breeding efforts.In this study,RNA sequencing,gas chromatography–mass spectrometry,and other molecular biology techniques were used to identify the underlying transcriptional regulation mechanisms.Two transcription factors,ZbbHLH2 and ZbERF6,were identified as key regulators of monoterpenoid synthesis in Z.bungeanum that upregulate various monoterpenoid synthesis-associated genes and are novel transcriptional activators of ZbIDI,which encodes the rate-limiting enzyme in plant monoterpenoid synthesis.Functional analysis revealed that the expression of three genes[1]modulates monoterpenoid accumulation in Z.bungeanum peel.These findings provide novel insights into the metabolic regulatory network of monoterpenoid synthesis in Z.bungeanum peel,offer potential strategies for the biofortification of specific monoterpenoids,and will promote the development of Z.bungeanum germplasm for targeted breeding and quality improvement.
基金supported by Hebei Natural Science Foundation(H2024206476)Medical Science Research Project of Hebei(20240101).
文摘Background:The regulatory mechanisms governing vasculogenic mimicry(VM)in oral squamous cell carcinoma(OSCC)remain largely undefined.This study aimed to identify critical factors and elucidate the epigenetic mechanisms underlying VM in OSCC.Methods:Bioinformatics analysis was performed utilizing single-cell RNA-seq,bulk RNA-seq,and histone H3 lysine 27 acetylation(H3K27ac)Chromatin Immunoprecipitation(ChIP)-seq data obtained from The Cancer Genome Atlas(TCGA)and Gene Expression Omnibus(GEO)databases.ChIP-qPCR was used to validate the binding of ETS transcription factor ELK4(ELK4)to the dihydrofolate reductase(DHFR)enhancer.In vitro VM formation and invasion of OSCC cells were assessed using Matrigel-based tube formation and Transwell assays,respectively.Results:Elevated expression of VM-related genes predicts unfavorable prognosis in OSCC patients.High-dimensional weighted gene co-expression network analysis(hdWGCNA)identified epithelial subcluster C4 as most strongly associated with VM and metastasis.Three co-expression modules within this subcluster exhibited significant positive correlations with both phenotypic traits.Among the 30 eigengenes from the three modules,DHFR emerged as a key regulator of VM and metastasis.Knockdown or inhibition of DHFR significantly suppressed VM formation and invasion in OSCC cells.Mechanistically,ELK4 activated DHFR transcription through direct binding to its enhancer.DHFR overexpression rescued VM and invasion impairment induced by ELK4 knockdown.Conclusion:DHFR was a pivotal enhancer-regulated gene driving VM and metastasis in OSCC.ELK4 directly binds to DHFR enhancer regions to activate its transcription,thereby promoting these malignant phenotypes.These findings identified the ELK4/DHFR axis as a promising therapeutic target for anti-angiogenic intervention in OSCC.
基金funding from the Scientific and Technological Innovation Project of China Academy of Chinese Medical Sciences(No.CI2021A04008)National Key Research and Development Project(No.2023YFC3504104)+2 种基金Hangzhou Joint Fund of the Zhejiang Provincial Natural Science Foundation of China(No.LHZSZ24H280003)Technology Major Program on Agricultural New Variety Breeding(No.2021C02073)Central Guiding Local Science and Technology Development Fund Project(No.2024ZY01009).
文摘Objective The basic helix-loop-helix(bHLH)transcription factors(TFs)are pivotal in regulating fungal growth,development,and secondary metabolism.However,the knowledge about the Ganoderma lucidum bHLHs(GlbHLHs)in ganoderic acid(GA)biosynthesis of G.lucidum was limited.This study aimed to explore the functions of bHLH genes in ganoderic acid biosynthesis during G.lucidum growth development.Methods First,the genome-wide identification of GlbHLHs was performed through Hidden Markov model searches and Two-way blast.Furthermore,through physicochemical properties,gene structure,and phylogenetic analysis,as well as combining the transcriptome and metabolome data from different developmental stages of G.lucidum,candidate GlbHLHs were screened.Subsequently,their regulatory roles in ganoderic acid biosynthesis were explored using yeast one-hybrid and dual-luciferase reporter assays.Results A total of 11 GlbHLH members were characterized in G.lucidum.The upstream promoter regions of these genes enriched hormones and abiotic stress responsive elements.Although individual ganoderic acid monomers demonstrated marked differences in accumulation patterns across specific growth phases and tissue types,overall,the total GA content was consistently higher in caps than in stipes throughout development.In addition,all GlbHLHs exhibited high expression in whole G.lucidum from the primordium to maturation stages.Among them,GlbHLH5 and GlbHLH7 showed the highest expression in any stage and highly correlated with key genes associated with GA pathway.Functional validation through dual-luciferase assays and yeast one-hybrid experiments had demonstrated that GlbHLH5 activated the P2 region of the lanosterol synthase promoter,while GlbHLH7 activated the promoters of squalene epoxidase and squalene synthase.Conclusion Compared to plants,G.lucidum harbored a small number of bHLH members but all high expression in any stages.Additionally,GlbHLH5 and GlbHLH7 with the highest expression among GlbHLHs showed activation in regulating the biosynthesis of GA.These results provide a theoretical reference for further research on ganoderic acid regulation in G.lucidum,and thereby providing a molecular foundation for enhancing ganoderic acid yield to optimize the medicinal value of G.lucidum.
文摘AIM:To investigate whether vaccinia-related kinase 1(VRK1)mediates transforming growth factor-beta2(TGF-β2)-caused epithelial-mesenchymal transition(EMT)and inflammatory responses in retinal pigment epithelial(RPE)cells through regulating snail family transcriptional repressor 1(SNAI1),and to validate its role in a proliferative vitreoretinopathy(PVR)mouse model.METHODS:Human RPE cell line ARPE-19 cells were treated with TGF-β2 to construct an EMT model.Western blot detected VRK1 level.The effects of VRK1 on SNAI1 expression and biological behavior of ARPE-19 cells were detected by immunofluorescence,ELISA,Transwell,and scratch assay,and the interaction between VRK1 and SNAI1 was confirmed through immunoprecipitation.A PVR mouse model was constructed,and the effects of VRK1 or/and SNAI1 on retinal damage were assessed by pathologic staining.Inflammatory factors and EMT-related proteins were assessed with ELISA and Western blot.RESULTS:VRK1 was upregulated in ARPE-19 cells after TGF-β2 treatment.Overexpression of VRK1 increased cell viability,promoted cell migration and EMT,and the levels of inflammatory factors.Silencing of VRK1 reversed the above indexes.There was a direct interaction between VRK1 and SNAI1,and overexpresssion SNAI1 weakened the impacts of silencing of VRK1.In PVR mice,silencing of VRK1 ameliorated retinal structural damage,decreased proinflammatory factor levels,and suppressed SNAI1 and mesenchymal marker expression.SNAI1 overexpression antagonized the protective effects of silencing VRK1 and exacerbated EMT and inflammatory responses.CONCLUSION:VRK1 plays a key role in retinal structural and inflammatory damage in PVR mice by regulating SNAI1 and mediating TGF-β2-caused EMT and inflammatory responses in RPE cells.
基金supported by the Foundation Project:National Natural Science.Foundation of China(Nos.:82460249,82100417,81760094)The Foundation of Jiangxi Provincial Department of Science and Technology Outstanding Youth Fund Project(20212BAB206022,20242BAB23080).
文摘Objective:Leucine-rich alpha-2 glycoprotein 1(Lrg1)could regulate diverse cells in cerebral ischemiareperfusion.Our study seeks to uncover Lrg1’s impact on endothelial cell heterogeneity via differentiation pathways and transcription factors.Method:The CSOmap model measured cell-to-brain-center distances using single-cell RNA sequencing(scRNA-seq)data in middle cerebral artery occlusion reperfusion(MCAO/R).Monocle2 mapped endothelial differentiation paths.Gene set enrichment analysis(GSEA)analyzed endothelial subcluster variations.Database searches revealed a zinc finger MIZ-type containing 1 protein-frizzled 3(Zmiz1-Fzd3)promoter interaction.Endothelial cells were transfected with a Fzd3 promoter-luciferase plasmid.Polymerase chain reaction(PCR)and western blotting assessed MCAO/R or Zmiz1 overexpression effects on Fzd3-related mRNA and proteins.A retroviral vector carrying Zmiz1 was injected into the brains of mice to study its effect on Fzd3.Result:Lrg1−/−mice exhibited elevated cell adhesion proteins and decreased microvascular leakage after MCAO/R.CSOmap showed widened astrocyte spacing in thesemice.RSS revealed Zmiz1 overexpression inMCAO/R+Lrg1−/−mice.MCAO/R and pcDNA3-Zmiz1 transfection both enhanced luciferase activity with Fzd3,indicating Zmiz1 binding to Fzd3.Retroviral Zmiz1 injection or knockdown disrupted ischemic brain tight junctions,highlighting Zmiz1’s key role in blood-brain barrier protection,likely through Fzd3 pathway modulation.Conclusion:The findings indicate Lrg1 knockout induces endothelial differentiation by activating Zmiz1,which is crucial for maintaining blood-brain barrier function,possibly via modulating the Fzd3 pathway.
文摘Objectives:The current treatment options and therapeutic targets for triple-negative breast cancer(TNBC),an aggressive subtype of breast cancer(BrCA),are limited.This study aimed to identify novel biomarkers and transcriptional regulatory networks(TRN)inherent in TNBC samples.Methods:We analyzed pan-cancer BrCA datasets from The Cancer Genome Atlas(TCGA)to compare triple-positive breast cancer(TPBC)with TNBC.TRN algorithms and virtual inference of protein-enriched regulon(VIPER)were used to identify master regulators and their target genes.Utilizing TNBC cells(MDA-MB-231 and MDA-MB-468),we validated the relationship of nuclear factor erythroid 2-like 3(NFE2L3)and basic helix-loop-helix family member E 40(BHLHE40)by performing a luciferase assay.The expression levels of these targets were measured after transfections with plasmid and siRNA via qRT-PCR and western blots.The effect of these genes on cell proliferation and migration was studied using phenotypic assays.Results:Using computational approaches,we identified NFE2L3 as a master regulator with BHLHE40 as its target gene.NFE2L3 protein binds to the promoter region of BHLHE40 and regulates its transcriptional activity.Additionally,silencing and overexpressing NFE2L3 and BHLHE40 in TNBC cell lines MDA-MB-231 and MDA-MB-468 showed that NFE2L3 directly regulates BHLHE40 at both transcriptional and translational levels.We found that BHLHE40 requires NFE2L3 for cell proliferation and migration in TNBC.Conclusion:These findings underscore the significance of NFE2L3 and BHLHE40 in TNBC,highlighting NFE2L3’s role in regulating the oncogenic activity of BHLHE40 in TNBC cells.
文摘AIM: To evaluate the diagnostic and prognostic value of circulating Metastasis Associated in Colon Cancer 1(MACC1) transcripts in plasma of gastric cancer patients.METHODS: We provide for the first time a blood-based assay for transcript quantification of the metastasis inducer MACC1 in a prospective study of gastric cancer patient plasma.MACC1 is a strong prognostic biomarker for tumor progression and metastasis in a variety of solid cancers.We conducted a study to define the diagnostic and prognostic power of MACC1 transcripts using 76 plasma samples from gastric cancer patients,either newly diagnosed with gastric cancer,newly diagnosed with metachronous metastasis of gastric cancer,as well as follow-up patients.Findings were controlled by using plasma samples from 54 tumor-free volunteers.Plasma was separated,RNA was isolated,and levels of MACC1 as well as S100A4 transcripts were determined by quantitative RT-PCR.RESULTS: Based on the levels of circulating MACC1 transcripts in plasma we significantly discriminated tumorfree volunteers and gastric cancer patients(P < 0.001).Levels of circulating MACC1 transcripts were increased in gastric cancer patients of each disease stage,compared to tumor-free volunteers: patients with tumors without metastasis(P = 0.005),with synchronous metastasis(P = 0.002),with metachronous metastasis(P = 0.005),and patients during follow-up(P = 0.021).Sensitivity was 0.68(95%CI: 0.45-0.85) and specificity was 0.89(95%CI: 0.77-0.95),respectively.Importantly,gastric cancer patients with high circulating MACC1 transcript levels in plasma demonstrated significantly shorter survival whencompared with patients demonstrating low MACC1 levels(P = 0.0015).Furthermore,gastric cancer patients with high circulating transcript levels of MACC1 as well as of S100A4 in plasma demonstrated significantly shorter survival when compared with patients demonstrating low levels of both biomarkers or with only one biomarker elevated(P = 0.001).CONCLUSION: Levels of circulating MACC1 transcripts in plasma of gastric cancer patients are of diagnostic value and are prognostic for patient survival in a prospective study.
文摘As part of our efforts to identify novel contraceptive targets in the epididymis we performed transcriptional profiling on each of the 10 and 19 segments of the mouse and rat epididymidis, respectively, using Affymetrix whole genome microarrays. A total of 17 096 and 16 360 probe sets representing transcripts were identified as being expressed in the segmented mouse and rat epididymal transcriptomes, respectively. Comparison of the expressed murine transcripts against a mouse transcriptional profiling database derived from 22 other mouse tissues identified 77 transcripts that were expressed uniquely in the epididymis. The expression of these genes was further evaluated by reverse transcription polymerase chain reaction (RT-PCR) analysis of RNA from 21 mouse tissues. RT-PCR analysis confirmed epididymis-specific expression of Defensin Beta 13 and identified two additional genes with expression restricted only to the epididymis and testis. Comparison of the 16 360 expressed transcripts in the rat epididymis with data of 21 other tissues from a rat transcriptional profiling database identified 110 transcripts specific for the epididymis. Sixty-two of these transcripts were further investigated by qPCR analysis. Only Defensin 22 (E3 epididymal protein) was shown to be completely specific for the epididymis. In addition, 14 transcripts showed more than 100-fold selective expression in the epididymis. The products of these genes might play important roles in epididymal and/or sperm function and further investigation and validation as contraceptive targets are warranted. The results of the studies described in this report are available at the Mammalian Reproductive Genetics (MRG) Database (http://mrg. genetics.washington.edu/). (Asian J Androl 2007July; 9: 522-527)
文摘MicroRNAs (miRNAs) are endogenous 22-nt RNAs, which play important regulatory roles by post-transcriptional gene silencing. A computational strategy has been developed for the identification of conserved miRNAs based on features of known metazoan miRNAs in red flour beetle (Tribolium castaneum), which is regarded as one of the major laboratory models of arthropods. Among 118 putative miRNAs, 47% and 53% of the predicted miRNAs from the red flour beetle are harbored by known protein-coding genes (intronic) and genes located outside (intergenic miRNA), respectively. There are 31 intronic miRNAs in the same transcriptional orientation as the host genes, which may share RNA polymerase II and spliceosomal machinery with their host genes for their biogenesis. A hypothetical feed-back model has been proposed based on the analysis of the relationship between intronic miRNAs and their host genes in the development of red flour beetle.
文摘The cooperative principle put forward by Grice is an important part of pragmatics.The four maxims included in the cooperative principle are effective in analyzing people's conversation,and sometimes the violations of the four maxims can often generate the implicit meaning of conversation,which called conversational implicature,or achieve certain communicative effects such as humor,irony and so on.This article tries to analyze some transcripts from a popular TV series of America called Desperate Housewives season I from the perspective of cooperative principle to show how to infer the conversational implicature and communicative effects of people's conversation with cooperative principle.
基金This research was supported by the National Natural Science Foundation of China(Grant No.U1504320)Financial Project of Henan Province(Grant No.2019ZC23)We thank Liwen Bianji,Edanz Group China(www.liwenbianji.cn/ac),for editing the English text of a draft of this manuscript.
文摘Previous studies have shown that high light intensity can induce anthocyanin synthesis(AS)in petunia plants.To identifywhich kind of light quality plays a role in inducing such metabolic process,and what transcripts participate in controlling it,we carried out whole-transcriptome sequencing and analysis of petunia petals treated with different light-quality conditions.Among the red and white light treatments,a total of 2205 differentially expressed genes and 15,22,and 20 differentially expressed circRNAs,miRNAs,and lncRNAs,were identified respectively.The AS-related genes,including the structural genes CHSj,F3H,F35H,DFR,and ANS,and the regulatory genes AN4,DPL,PHZ and MYBx were found to be downregulated under red light condition compared with their levels under white light condition.Furthermore,the light photoreceptor Cryptochrome 3(CRY3)and a series of light-dependent genes,such as PIF,HY5,andBBXs,were also determined to respond to the light treatments.The anthocyanin contents in early petunia petals under red light were significantly lower than that under white and blue light.The results of qRT-PCR further confirmed the expression pattern of some AS-related and light-response genes in response to different light quality.Yeast two-hybrid results showed that the key elements in the light signal pathway,HY5 can interact with BBX19,BBX24 and BBX25.And PHZ,the important AS regulator can induce anthocyanin synthesis in response to blue light quality fromtransient expression analysis in petunia petals.These findings presented here not only deepen our understanding of how light quality controls anthocyanin synthesis,but also allow us to explore potential target genes for improving pigment production in petunia flower petals.
文摘The human promyelocytic cell line HL-60 overexpresses the c-myc protooncogene. Plasmid pDACx carrying antisense human c-myc DNA and neo gene was introduced into HL-60 cells with lipofectin reagent. Upon DNA entering the tar-geted celis and expression of antisense transcripts to c-myc, C-MYC protein level, cell proliferation and colony-forming potentiality were all definitely inhibited.
基金supported by the Basic Research Program of China (973 Program, 2014CB138705)the National Natural Science Foundation of China (31371639)the Sichuan Youth Science and Technology Foundation of China (12ZB091)
文摘Zea nicaraguensis, a wild relative of cultivated maize (Zea mays subsp, mays), is considered to be a valuable germplasm to improve the waterlogging tolerance of cultivated maize. Use of reverse genetic-based gene cloning and function verifi- cation to discover waterlogging tolerance genes in Z. nicaraguensis is currently impractical, because little gene sequence information for Z. nicaraguensis is available in public databases. In this study, Z. nicaraguensis seedlings were subjected to simulated waterlogging stress and total RNAs were isolated from roots stressed and non-stressed controls. In total, 80 mol L-1 Illumina 100-bp paired-end reads were generated. De novo assembly of the reads generated 81 002 final non-re- dundant contigs, from which 5 261 full-length transcripts were identified. Among these full-length transcripts, 3 169 had at least one Gene Ontology (GO) annotation, 2 354 received cluster of orthologous groups (COG) terms, and 1 992 were assigned a Kyoto encyclopedia of genes and genomes (KEGG) Orthology number. These sequence data represent a valuable resource for identification of Z. nicaraguensis genes involved in waterlogging response.
文摘Aim: To determine the possible roles of the t-complex testis expressed gene 5 (Tctex5) on sperm functions, the fulllength sequence of mRNA was studied and compared in the testis between the normal wild-type and the sterile t-haplotype mutant mice. Methods: We applied rapid amplification of cDNA ends, Northern blot and reverse transcription polymerase chain reaction to analyze the full length of Tctex5 mRNAs isolated from testes of the wild-type and the t-haplotype mice. Reverse transcription polymerase chain reaction was used to semi-quantitatively compare expression of Tctex5 transcripts in the 16 tissues and 9.5 day stage embryos in the wild-type mice. E-translation was applied to estimate the amino acid sequences. Results: One long and one short transcript of Tctex5 mRNA were discovered in mouse testis of wild-type (Tctex5^long-+ and Tctex5^short-+) and t-haplotype (Tctex5^long-+ and Tctex5^short-+) mice, respectively. Being enhanced only in the testis, Tctex5^long-+ had 17 point mutations and one 15-bp-deletion in the exon 1 region, comparing with the Tctex5^long-+, whereas the Tctex5^short-+ was similar to the Tctex5^short-+. The short isoforms of Tctex5 mRNAs in the two models encoded exactly the same peptides, but the long isoforms did not. The estimated peptide encoded by Tctex5^long-+ had significant mutations on putative sites of phosphorylation and PP1 binding. Conclusion: We established that mutations that occur in the Tctex5 long transcript of the t-haplotype mice are important for normal sperm function, whereas the short transcript of Tctex5 might have a conserved function among different tissues. (Asian J Androl 2008 Mar; 10: 219-226)
基金supported by the National High-Tech R&D Program of China (2006AA10Z1F1)the National Core Soybean Genetic Engineering Project, China(2011ZX08004-002)+3 种基金the National Natural Science Foundation of China (60932008, 30971810)the National Basic Research Program of China (2009CB118400)the Ministry of Education Innovation Team of Soybean Molecular Design,Chinathe Innovation Team of the Education Bureau of Heilongjiang Province, China
文摘The importance of microRNA (miRNA) at the post-transcriptional regulation level has recently been recognized in both animals and plants. In recent years, many studies focused on miRNA target identification and functional analysis. However, little is known about the transcription and regulation of miRNAs themselves. In this study, the transcription start sites (TSSs) for 11 miRNA primary transcripts of soybean from 11 miRNA loci (of 50 loci tested) were cloned by a 5" rapid amplification of cDNA ends (5" RACE) procedure using total RNA from 30-d-old seedlings. The features consistent with a RNA polymerase II mechanism of transcription were found among these miRNA loci. A position weight matrix algorithm was used to identify conserved motifs in miRNA core promoter regions. A canonical TATA box motif was identified upstream of the major start site at 8 (76%) of the mapped miRNA loci. Several cis-acting elements were predicted in the 2 kb 5" to the TSSs. Potential spatial and temporal expression patterns of the miRNAs were found. The target genes for these miRNAs were also predicted and further elucidated for the potential function of the miRNAs. This research provides a molecular basis to explore regulatory mechanisms of miRNA expression, and a way to understand miRNA-mediated regulatory pathways and networks in soybean.
文摘A single mammalian transcript normally encodes one protein, but the transcript of GNAS (G-protein u-subunit) contains two reading frames and produces two structurally unrelated proteins, XLas and ALEX. No other confirmed GNAS-Iike dual-coding transcripts have been reported to date, even though many such candidate genes have been predicted by bioinformatics analysis. In this study, we constructed a series of vectors to test how two protein products were translated from a single transcript in vitro. The length of the ORF (open reading frame), position of the first AUG and the Kozak motif were found to be important factors. These factors, as well as 55-bp NMD (nonsense-mediated mRNA decay) rule, were used in a bioinformatics search for candidate dual-coding transcripts. A total of 1307, 750 and 474 two-ORF-containing transcripts were found in human, mouse and rat, respectively, of which 170, 89 and 70, respectively, were found to be potential dual-coding transcripts. Most transcripts showed low conservation among species. Interestingly, dual-coding transcripts were significantly enriched for transcripts from the zinc-finger protein family, which are usually DNA-binding proteins involved in regulation of the transcription process.
文摘Objectives: To define the involvement of CALM and AF10 fusion transcripts in primary leukaemias with t(10; 11). Methods: The AF10 and CALM fusion in five t(10; 11) leukemia samples were checked by reverse transcriptase-polymerase chain reaction (RT-PCR), and effects of CALM/AF10 antisense phosphorothioate oligodeoxynucleotides (AS PS-ODNs) on chemotherapy sensitivity and apoptosis of leukemia cells in vitro were observed. Results: Five different-sized AF10-CALM products and four different-sized CALM/AF10 products were detected by RT-PCR. The chemotherapy sensitivity of leukemic cells with t(10; 11) to drugs in vitro was lower than that of leukemic cells without t(10; 11). AS PS-ODNs increased the chemotherapy sensitivity and apoptotic rate. There were 4 cases positive at 5 μmol/L concentration, all cases positive at 10 μmol/L and 20 μmol/L concentration, P<0.01 vs only chemotherapeutic drugs (3 cases positive), and chemotherapeutic drugs + S-PS-ODNs (10 μmol/L) (3 cases positive). After cells were treated with 10 μmol/L AS-PS-ODNs + chemotherapeutic drugs for 48 h, 72 h, 96 h, the apoptotic indexes were 14.22±2.86, 29.39±3.57, and 41.26±4.52, respectively. These were significantly higher than those of only chemotherapeutic drugs-treated cells and chemotherapeutic drugs + S-PS-ODNs-treated cells at corresponding time (P<0.01). There was no difference between only drugs group and S-PS-ODNs group at corresponding time (P>0.05). Conclusion: The CALM and AF10 fusion transcripts are involved in the pathogenesis of haematological malignancies with t(10, 11), and is associated with a poor prognosis. AS-PS-ODNs might be useful in therapy of t(10, 11) leukemia. Key words AF10 - CALM - Fusion transcript - Primary leukemia cell - In vitro sensitivity - Antisense oligodeoxynucleotide CLC number R733.7 Biography: LIU Ge-xiu (1968–), male, associate professor, Institute of Hematology, Medical College, Jinan University, majors in hematology.
基金supported by the National Natural Science Foundation of China(No.30971844)the Fundamental Research Funds of Northwest A & F University(No. QN2011003)+1 种基金China Postdoctoral Science Foundation to Wang Junwei(No.20070410835)the Tang Zhong-Ying Breeding Funding Project of Northwest A & F University
文摘Common wheat (Triticum aestivum L.) is one of the most important crops, and intra-specific wheat hybrids have obvious heterosis in yield and protein quality. Therefore, utilization of hybrid wheat varieties offers an effective way to increase yield and nutrition. Cytoplasmic male sterility (CMS) systems are a useful genetic tool for hybrid crop breeding, and are ideal models for studying the genetic interaction and cooperative function of mitochondrial and nuclear genomes in plants (Schnable and Wise, 1998; Hanson and Bentolila, 2004).
基金supported by the National Natural Science Foundation of China(31301958)the Chinese Postdoctoral Science Foundation(2013T60808)
文摘High-throughput sequencing has identified a large number of sense-antisense transcriptional pairs, which indicates that these genes were transcribed from both directions. Recent reports have demonstrated that many antisense RNAs, especially lnc RNA(long non-coding RNA), can interact with the sense RNA by forming an RNA duplex. Many methods, such as RNA-sequencing, Northern blotting, RNase protection assays and strand-specific PCR, can be used to detect the antisense transcript and gene transcriptional orientation. However, the applications of these methods have been constrained, to some extent, because of the high cost, difficult operation or inaccuracy, especially regarding the analysis of substantial amounts of data. Thus, we developed an easy method to detect and validate these complicated RNAs. We primarily took advantage of the strand specificity of RT-PCR and the single-strand specificity of S1 endonuclease to analyze sense and antisense transcripts. Four known genes, including mouse β-actin and Tsix(Xist antisense RNA), chicken LXN(latexin) and GFM1(Gelongation factor, mitochondrial 1), were used to establish the method. These four genes were well studied and transcribed from positive strand, negative strand or both strands of DNA, respectively, which represented all possible cases. The results indicated that the method can easily distinguish sense, antisense and sense-antisense transcriptional pairs. In addition, it can be used to verify the results of high-throughput sequencing, as well as to analyze the regulatory mechanisms between RNAs. This method can improve the accuracy of detection and can be mainly used in analyzing single gene and was low cost.
