Your search keyword '"Shaochun Yuan"' showing total 3 results

1. Dynamic landscape of tandem 3′ UTRs during zebrafish development

Author

Chenxu Zhang, Anlong Xu, Liangfu Chen, Shangwu Chen, Yonggui Fu, Mengzhen Li, Guangrui Huang, Gaoyang Shen, Yuxin Li, Yu Sun, Jiahui Liang, Shaochun Yuan, and Shengfeng Huang

Subjects

Regulation of gene expression, Untranslated region, Genetics, biology, Polyadenylation, Three prime untranslated region, Research, Gene Expression Regulation, Developmental, Molecular Sequence Annotation, biology.organism_classification, Exon, Tandem Repeat Sequences, RNA Isoforms, Animals, Maternal to zygotic transition, Poly A, 3' Untranslated Regions, Zebrafish, Gene, Genetics (clinical)

Abstract

Tandem 3′ untranslated regions (UTRs), produced by alternative polyadenylation (APA) in the terminal exon of a gene, could have critical roles in regulating gene networks. Here we profiled tandem poly(A) events on a genome-wide scale during the embryonic development of zebrafish (Danio rerio) using a recently developed SAPAS method. We showed that 43% of the expressed protein-coding genes have tandem 3′ UTRs. The average 3′ UTR length follows a V-shaped dynamic pattern during early embryogenesis, in which the 3′ UTRs are first shortened at zygotic genome activation, and then quickly lengthened during gastrulation. Over 4000 genes are found to switch tandem APA sites, and the distinct functional roles of these genes are indicated by Gene Ontology analysis. Three families of cis-elements, including miR-430 seed, U-rich element, and canonical poly(A) signal, are enriched in 3′ UTR-shortened/lengthened genes in a stage-specific manner, suggesting temporal regulation coordinated by APA and trans-acting factors. Our results highlight the regulatory role of tandem 3′ UTR control in early embryogenesis and suggest that APA may represent a new epigenetic paradigm of physiological regulations.

Published

2012

2. HaploMerger: Reconstructing allelic relationships for polymorphic diploid genome assemblies

Author

Zelin Chen, Ping Yang, Shangwu Chen, Shaochun Yuan, Yonggui Fu, Shengfeng Huang, Guangrui Huang, Ting Yu, Anlong Xu, and Jie Li

Subjects

Resource, Heterozygote, Sequence alignment, Genomics, Computational biology, Biology, Sensitivity and Specificity, Genome, Loss of heterozygosity, Chordata, Nonvertebrate, Genetic variation, Computer Graphics, Genetics, Animals, Computer Simulation, Alleles, Genetics (clinical), Expressed Sequence Tags, Expressed sequence tag, Haplotype, Genetic Variation, Reproducibility of Results, Reference Standards, Diploidy, Haplotypes, Ploidy, Sequence Alignment, Algorithms

Abstract

Whole-genome shotgun assembly has been a long-standing issue for highly polymorphic genomes, and the advent of next-generation sequencing technologies has made the issue more challenging than ever. Here we present an automated pipeline, HaploMerger, for reconstructing allelic relationships in a diploid assembly. HaploMerger combines a LASTZ-ChainNet alignment approach with a novel graph-based structure, which helps to untangle allelic relationships between two haplotypes and guides the subsequent creation of reference haploid assemblies. The pipeline provides flexible parameters and schemes to improve the contiguity, continuity, and completeness of the reference assemblies. We show that HaploMerger produces efficient and accurate results in simulations and has advantages over manual curation when applied to real polymorphic assemblies (e.g., 4%–5% heterozygosity). We also used HaploMerger to analyze the diploid assembly of a single Chinese amphioxus (Branchiostoma belcheri) and compared the resulting haploid assemblies with EST sequences, which revealed that the two haplotypes are not only divergent but also highly complementary to each other. Taken together, we have demonstrated that HaploMerger is an effective tool for analyzing and exploiting polymorphic genome assemblies.

Published

2012

3. Genomic analysis of the immune gene repertoire of amphioxus reveals extraordinary innate complexity and diversity

Author

Huiqing Huang, Tao Wu, Kui Wu, Yingcai Yu, Huiling Liu, Shangwu Chen, Jin Ge, Meiling Dong, Shengfeng Huang, Jun Li, Tong Liu, Shaochun Yuan, Anlong Xu, Cuiling Yu, Yanhong Yu, Manyi Yang, and Lei Guo

Subjects

Letter, animal structures, Molecular Sequence Data, Chordate, Biology, Genome, Mice, Immune system, Species Specificity, Chordata, Nonvertebrate, biology.animal, Branchiostoma floridae, Genetics, Animals, Humans, Immunologic Factors, Receptors, Immunologic, Zebrafish, Genetics (clinical), Innate immune system, Genetic Variation, Lampreys, Vertebrate, Sequence Analysis, DNA, Acquired immune system, biology.organism_classification, Immunity, Innate, Drosophila melanogaster, Evolutionary biology, Sea Urchins, C1q domain

Abstract

It has been speculated that before vertebrates evolved somatic diversity-based adaptive immunity, the germline-encoded diversity of innate immunity may have been more developed. Amphioxus occupies the basal position of the chordate phylum and hence is an important reference to the evolution of vertebrate immunity. Here we report the first comprehensive genomic survey of the immune gene repertoire of the amphioxus Branchiostoma floridae. It has been reported that the purple sea urchin has a vastly expanded innate receptor repertoire not previously seen in other species, which includes 222 toll-like receptors (TLRs), 203 NOD/NALP-like receptors (NLRs), and 218 scavenger receptors (SRs). We discovered that the amphioxus genome contains comparable expansion with 71 TLR gene models, 118 NLR models, and 270 SR models. Amphioxus also expands other receptor-like families, including 1215 C-type lectin models, 240 LRR and IGcam-containing models, 1363 other LRR-containing models, 75 C1q-like models, 98 ficolin-like models, and hundreds of models containing complement-related domains. The expansion is not restricted to receptors but is likely to extend to intermediate signal transducers because there are 58 TIR adapter-like models, 36 TRAF models, 44 initiator caspase models, and 541 death-fold domain-containing models in the genome. Amphioxus also has a sophisticated TNF system and a complicated complement system not previously seen in other invertebrates. Besides the increase of gene number, domain combinations of immune proteins are also increased. Altogether, this survey suggests that the amphioxus, a species without vertebrate-type adaptive immunity, holds extraordinary innate complexity and diversity.

Published

2008