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Divergence of alternative splicing represents one of the major driving forces to shape phenotypic diversity during evolution. However, the extent to which these divergences could be explained by the evolving cis‐regulatory versus trans‐acting factors remains unresolved. To globally investigate the relative contributions of the two factors for the first time in mammals, we measured splicing difference between C57BL/6J and SPRET/EiJ mouse strains and allele‐specific splicing pattern in their F1 hybrid. Out of 11,818 alternative splicing events expressed in the cultured fibroblast cells, we identified 796 with significant difference between the parental strains. After integrating allele‐specific data from F1 hybrid, we demonstrated that these events could be predominately attributed to cis‐regulatory variants, including those residing at and beyond canonical splicing sites. Contrary to previous observations in Drosophila, such predominant contribution was consistently observed across different types of alternative splicing. Further analysis of liver tissues from the same mouse strains and reanalysis of published datasets on other strains showed similar trends, implying in general the predominant contribution of cis‐regulatory changes in the evolution of mouse alternative splicing.  相似文献   

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Phenotypic variation can arise from differences in the protein coding sequence and in the regulatory elements. However, little is known about the contribution of regulatory difference to the expression divergence, especially the cis and trans regulatory variation to the expression divergence in intraspecific populations. In this study, we used two different yeast strains, BY4743 and RM11‐1a/α, to study the regulatory variation to the expression divergence between BY and RM under oxidative stress condition. Our results indicated that the expression divergence of BY and RM is mainly due to trans regulatory variations under both normal and oxidative stress conditions. However, cis regulatory variation seems to play a very important role in oxidative stress response in yeast because 36% of genes showed an increase in cis regulatory variation effect compared with 13% of genes that showed an increase in trans regulatory variation effect after oxidative stress. Our data also indicated that genes located on the longer arm of the chromosomes are more susceptible to cis variation effect under oxidative stress than genes on the shorter arm of the chromosomes.  相似文献   

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Changes in gene expression contribute to reproductive isolation of species, adaptation, and development and may impact the genetic fate of duplicated genes. African clawed frogs (genus Xenopus) offer a useful model for examining regulatory evolution, particularly after gene duplication, because species in this genus are polyploid. Additionally, these species can produce viable hybrids, and expression divergence between coexpressed species-specific alleles in hybrids can be attributed exclusively to cis-acting mechanisms. Here we have explored expression divergence of a duplicated heterodimer composed of the recombination activating genes 1 and 2 (RAG1 and RAG2). Previous work identified a phylogenetically biased pattern of pseudogenization of RAG1 wherein one duplicate—RAG1β—was more likely to become a pseudogene than the other one—RAG1α. In this study we show that ancestral expression divergence between these duplicates could account for this. Using comparative data we demonstrate that regulatory divergence between species and between duplicated genes varies significantly across tissue types. These results have implications for understanding of variables that influence pseudogenization of duplicated genes generated by polyploidization, and for interpretation of the relative contributions of cis versus trans mechanisms to expression divergence at the cellular level. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.  相似文献   

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The regulation of renin gene expression, the rate‐limiting enzyme of the system, is thought to be fundamental to the total system. Previously, we mapped six putative cis‐elements in the promoter region of the human renin gene with nuclear proteins from human chorionic cells and human renal cortex by DNase I protection assay (footprint A–F). Each footprint contains Ets motif like site (A), HOXñPBX recognition sequence (B), unknown sequence as DNA binding consensus (C), CRE (D), COUP‐TFII (ARP‐1) motif like site (E), and AGE3 like site (F). Footprint D has been characterized by means of functional studies as the genuine human renin gene CRE interacting with CREB in cooperation with the site of footprint B. To obtain further clues to the specific expression in the promoter region, these putative cis‐elements were conducted to a consensus‐specific binding assay to compare renin‐producing and non‐renin‐producing cells by EMSA and electromobility super‐shift assay. Different sequence‐specific DNA/protein binding was obtained among the different cell lines with footprint B site, with COUP‐TFII (ARP‐1) motif like site and possibly with footprint F site. The results implicate these putative cis‐elements and each corresponding trans‐factor in the specific expression of the human renin gene in the promoter region. Further functional characterization of these elements would provide important data for a better understanding of human renin gene expression. © 2004 Wiley‐Liss, Inc.  相似文献   

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Pigmentation is a model trait for evolutionary and developmental analysis that is particularly amenable to molecular investigation in the genus Drosophila. To better understand how this phenotype evolves, we examined divergent pigmentation and gene expression over developmental time in the dark‐bodied D. americana and its light‐bodied sister species D. novamexicana. Prior genetic analysis implicated two enzyme‐encoding genes, tan and ebony, in pigmentation divergence between these species, but questions remain about the underlying molecular mechanisms. Here, we describe stages of pupal development in both species and use this staging to determine when pigmentation develops and diverges between D. americana and D. novamexicana. For the developmental stages encompassing pigment divergence, we compare mRNA expression of tan and ebony over time and between species. Finally, we use allele‐specific expression assays to determine whether interspecific differences in mRNA abundance have a cis‐regulatory basis and find evidence of cis‐regulatory divergence for both tan and ebony. cis‐regulatory divergence affecting tan had a small effect on mRNA abundance and was limited to a few developmental stages, yet previous data suggests that this divergence is likely to be biologically meaningful. Our study suggests that small and developmentally transient expression changes may contribute to phenotypic diversification more often than commonly appreciated. Recognizing the potential phenotypic impact of such changes is important for a scientific community increasingly focused on dissecting quantitative variation, but detecting these types of changes will be a major challenge to elucidating the molecular basis of complex traits.  相似文献   

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Fusarium poae is a pathogen of increasing importance within the disease complex Fusarium head blight (FHB). Eleven microsatellite markers were developed, and 72 F. poae strains from Switzerland and other countries were used to assess the level of marker polymorphism. The number of alleles for each of the markers ranged from 4 to 15, and the average gene diversity was 0.62, ranging from 0.25 to 0.84. Using these novel markers, 44 genotypes could be differentiated among all F. poae strains. Two genotypes were represented by nine and ten strains, respectively, deriving from distinct geographic areas within Switzerland and indicating a potential selection advantage. Four markers were F. poae‐specific, whereas seven markers also yielded amplification products in one to four strains of five other Fusarium species. Of the latter, five markers revealed F. poae‐specific allele size ranges. Hence, these microsatellite markers could be used both for FHB species differentiation and for intra‐specific distinction of F. poae strains.  相似文献   

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The stage-specific translational control of maternal mRNAs is determined by their differential polyadenylation and deadenylation. In the past year, a growing number of cis-acting elements that both positively and negatively regulate polyadenylation and deadenylation have been delineated. Considerable progress has been made on the biochemical characterization and regulation of trans-acting polyadenylation and deadenylation factors. This review summarizes these advances and their relevance to the roles of polyadenylation and deadenylation in translational control.  相似文献   

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Gene expression differences between divergent lineages caused by modification of cis regulatory elements are thought to be important in evolution. We assayed genome-wide cis and trans regulatory differences between maize and its wild progenitor, teosinte, using deep RNA sequencing in F1 hybrid and parent inbred lines for three tissue types (ear, leaf and stem). Pervasive regulatory variation was observed with approximately 70% of ∼17,000 genes showing evidence of regulatory divergence between maize and teosinte. However, many fewer genes (1,079 genes) show consistent cis differences with all sampled maize and teosinte lines. For ∼70% of these 1,079 genes, the cis differences are specific to a single tissue. The number of genes with cis regulatory differences is greatest for ear tissue, which underwent a drastic transformation in form during domestication. As expected from the domestication bottleneck, maize possesses less cis regulatory variation than teosinte with this deficit greatest for genes showing maize-teosinte cis regulatory divergence, suggesting selection on cis regulatory differences during domestication. Consistent with selection on cis regulatory elements, genes with cis effects correlated strongly with genes under positive selection during maize domestication and improvement, while genes with trans regulatory effects did not. We observed a directional bias such that genes with cis differences showed higher expression of the maize allele more often than the teosinte allele, suggesting domestication favored up-regulation of gene expression. Finally, this work documents the cis and trans regulatory changes between maize and teosinte in over 17,000 genes for three tissues.  相似文献   

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SUMMARY The diversity of butterfly larval color pattern has been attracted to people since Darwin's time; however, its molecular mechanisms still remain largely unknown. Larval body markings often differ completely between closely related species under natural selection. The final instar larvae of the swallowtail butterflies Papilio xuthus and Papilio polytes show a green camouflage pattern, whereas those of Papilio machaon show a warning color pattern, although P. xuthus and P. machaon are closely related species. To identify the genes that contribute to species divergence, we compared the expression pattern of eight pigment‐associated genes between three Papilio species. The spatial expression pattern of melanin‐related genes coincided with the species‐specific cuticular markings. We newly found that the combination of bilin‐binding protein and yellow‐related gene (YRG) correlated perfectly with larval blue, yellow, and green coloration. To distinguish whether the interspecific differences in pigment‐associated genes are caused by cis‐regulatory changes or distribution differences in trans‐regulatory proteins, we compared species‐specific mRNA expression in an F1 hybrid specimen. Px‐YRG and Pp‐YRG showed a similar expression pattern, suggesting that the change in expression of YRG is caused mainly by changes in the distribution of trans‐regulatory proteins. Our findings shed light on the gene regulatory networks for butterfly larval color pattern.  相似文献   

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Accumulating evidence has suggested that epigenetic marks including DNA methylation,small RNA and histone modification may involve hybrid vigor in plants.However,knowledge about how epigenetic marks in hybrids regulate gene expression is still limited.Based on genome-wide DNA methylation landscapes of Arabidopsis thaliana Ler and C24 ecotypes and their reciprocal F1 hybrids which were obtained in our previous work,we analyzed allele-specific DNA methylation and distinguished cis-and trans-regulated DNA methylation in hybrids.Our study indicated that both cis-and trans-regulated DNA methylation played roles in hybrids,when cis-regulation played a major role in CG methylation and trans-regulation played major roles in CHG and CHH methylation.In addition,we observed correlations between trans-regulated DNA methylation and siRNA densities.Enriched siRNA regions were significantly concurrent with highly trans-regulated DNA methylation regions.Our results illustrated DNA methylation regulation patterns integrated with siRNAs in Arabidopsis hybrids,and shed light on understanding the mechanism of epigenetic reprogramming for hybrid vigor.  相似文献   

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