Analysis of novel caudal hindbrain genes reveals different regulatory logic for gene expression in rhombomere 4 versus 5/6 in embryonic zebrafish.

IF 4 3区生物学 Q1 DEVELOPMENTAL BIOLOGY

Neural Development Pub Date : 2018-06-26 DOI:10.1186/s13064-018-0112-y

Priyanjali Ghosh, Jennifer M Maurer, Charles G Sagerström

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引用次数: 0

Abstract

Background: Previous work aimed at understanding the gene regulatory networks (GRNs) governing caudal hindbrain formation identified morphogens such as Retinoic Acid (RA) and Fibroblast growth factors (FGFs), as well as transcription factors like hoxb1b, hoxb1a, hnf1ba, and valentino as being required for rhombomere (r) r4-r6 formation in zebrafish. Considering that the caudal hindbrain is relatively complex - for instance, unique sets of neurons are formed in each rhombomere segment - it is likely that additional essential genes remain to be identified and integrated into the caudal hindbrain GRN.

Methods: By taking advantage of gene expression data available in the Zebrafish Information Network (ZFIN), we identified 84 uncharacterized genes that are expressed in r4-r6. We selected a representative set of 22 genes and assayed their expression patterns in hoxb1b, hoxb1a, hnf1b, and valentino mutants with the goal of positioning them in the caudal hindbrain GRN. We also investigated the effects of RA and FGF on the expression of this gene set. To examine whether these genes are necessary for r4-r6 development, we analyzed germline mutants for six of the genes (gas6, gbx1, sall4, eglf6, celf2, and greb1l) for defects in hindbrain development.

Results: Our results reveal that r4 gene expression is unaffected by the individual loss of hoxb1b, hoxb1a or RA, but is under the combinatorial regulation of RA together with hoxb1b. In contrast, r5/r6 gene expression is dependent on RA, FGF, hnf1ba and valentino - as individual loss of these factors abolishes r5/r6 gene expression. Our analysis of six mutant lines did not reveal rhombomere or neuronal defects, but transcriptome analysis of one line (gas6 mutant) identified expression changes for genes involved in several developmental processes - suggesting that these genes may have subtle roles in hindbrain development.

Conclusion: We conclude that r4-r6 formation is relatively robust, such that very few genes are absolutely required for this process. However, there are mechanistic differences in r4 versus r5/r6, such that no single factor is required for r4 development while several genes are individually required for r5/r6 formation.

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对新型尾后脑基因的分析揭示了胚胎斑马鱼菱形丘 4 和 5/6 基因表达的不同调控逻辑。

背景：以往旨在了解斑马鱼尾后脑形成的基因调控网络（GRNs）的研究发现，视黄酸（RA）和成纤维细胞生长因子（FGFs）等形态发生因子以及hoxb1b、hoxb1a、hnf1ba和valentino等转录因子是斑马鱼菱形节（r）r4-r6形成所必需的。考虑到尾后脑相对复杂--例如，每个菱形节段都形成了独特的神经元组--很可能还有更多的重要基因有待鉴定并整合到尾后脑GRN中：利用斑马鱼信息网络（ZFIN）中的基因表达数据，我们发现了84个在r4-r6中表达的未定性基因。我们选择了一组具有代表性的 22 个基因，并检测了它们在 hoxb1b、hoxb1a、hnf1b 和 valentino 突变体中的表达模式，目的是将它们定位在尾后脑 GRN 中。我们还研究了 RA 和 FGF 对这组基因表达的影响。为了研究这些基因是否为 r4-r6 发育所必需，我们分析了其中六个基因（gas6、gbx1、sall4、eglf6、cef2 和 greb1l）的种系突变体，以确定它们是否存在后脑发育缺陷：结果：我们的研究结果表明，r4基因的表达不受单独缺失hoxb1b、hoxb1a或RA的影响，但受RA和hoxb1b的联合调控。相反，r5/r6 基因的表达依赖于 RA、FGF、hnf1ba 和 valentino，因为这些因子的单独缺失会导致 r5/r6 基因表达的消失。我们对六个突变品系的分析没有发现菱形体或神经元缺陷，但对一个品系（gas6突变体）的转录组分析发现了涉及多个发育过程的基因的表达变化--这表明这些基因可能在后脑发育过程中起着微妙的作用：我们的结论是，r4-r6 的形成相对稳健，因此这一过程绝对需要的基因很少。然而，r4 与 r5/r6 在机理上存在差异，例如 r4 的发育不需要单一因素，而 r5/r6 的形成则需要多个基因。

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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来源期刊

Neural Development 生物-发育生物学

CiteScore

6.60

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： Neural Development is a peer-reviewed open access, online journal, which features studies that use molecular, cellular, physiological or behavioral methods to provide novel insights into the mechanisms that underlie the formation of the nervous system. Neural Development aims to discover how the nervous system arises and acquires the abilities to sense the world and control adaptive motor output. The field includes analysis of how progenitor cells form a nervous system during embryogenesis, and how the initially formed neural circuits are shaped by experience during early postnatal life. Some studies use well-established, genetically accessible model systems, but valuable insights are also obtained from less traditional models that provide behavioral or evolutionary insights.