脊椎动物组织中核心基因表达的一致性。

Journal of Biology Pub Date : 2009-01-01 Epub Date: 2009-04-16 DOI:10.1186/jbiol130
Esther T Chan, Gerald T Quon, Gordon Chua, Tomas Babak, Miles Trochesset, Ralph A Zirngibl, Jane Aubin, Michael J H Ratcliffe, Andrew Wilde, Michael Brudno, Quaid D Morris, Timothy R Hughes
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引用次数: 0

摘要

背景:脊椎动物具有相同的身体结构和器官,拥有相关的基因集,依赖类似的生理机制,但在形态、栖息地和行为方面却表现出极大的多样性。基因调控的改变被认为是表型变异和进化的主要机制,但人们对非哺乳类脊椎动物基因表达的广泛保护模式知之甚少:我们测量了鸡、青蛙和河豚 20 种组织中所有已知和预测基因的表达。通过将结果与人类和小鼠的数据相结合,并只考虑十种常见组织,我们发现有证据表明三分之一以上的独特同源基因的表达是保守的。我们发现,平均而言,转录因子基因表达的保守性既不高于也不低于其他基因。令人吃惊的是,表达的保守性与非共轭序列的保守性关系不大,即使是使用考虑保守元素非共轭性的序列比对技术也是如此。许多基因尽管几乎没有非共轭的保守主序列,但却显示出人类/鱼类表达的保守性:结论:组织特异性基因表达显然受到了强大的进化限制。一项重大挑战将是了解许多基因表达模式在广泛的顺式调控重组后仍然保持相似的确切机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Conservation of core gene expression in vertebrate tissues.

Background: Vertebrates share the same general body plan and organs, possess related sets of genes, and rely on similar physiological mechanisms, yet show great diversity in morphology, habitat and behavior. Alteration of gene regulation is thought to be a major mechanism in phenotypic variation and evolution, but relatively little is known about the broad patterns of conservation in gene expression in non-mammalian vertebrates.

Results: We measured expression of all known and predicted genes across twenty tissues in chicken, frog and pufferfish. By combining the results with human and mouse data and considering only ten common tissues, we have found evidence of conserved expression for more than a third of unique orthologous genes. We find that, on average, transcription factor gene expression is neither more nor less conserved than that of other genes. Strikingly, conservation of expression correlates poorly with the amount of conserved nonexonic sequence, even using a sequence alignment technique that accounts for non-collinearity in conserved elements. Many genes show conserved human/fish expression despite having almost no nonexonic conserved primary sequence.

Conclusions: There are clearly strong evolutionary constraints on tissue-specific gene expression. A major challenge will be to understand the precise mechanisms by which many gene expression patterns remain similar despite extensive cis-regulatory restructuring.

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