脊索动物中脊索基因表达的保守性:来自类腱蛋白基因家族的见解。
Conservation of notochord gene expression across chordates: insights from the Leprecan gene family.
作者信息
Capellini Terence D, Dunn Matthew P, Passamaneck Yale J, Selleri Licia, Di Gregorio Anna
机构信息
Department of Cell and Developmental Biology, Weill Medical College of Cornell University, New York, New York 10065, USA.
出版信息
Genesis. 2008 Nov;46(11):683-96. doi: 10.1002/dvg.20406.
Abstract
The notochord is a defining character of the chordates, and the T-box transcription factor Brachyury has been shown to be required for notochord development in all chordates examined. In the ascidian Ciona intestinalis, at least 44 notochord genes have been identified as bona fide transcriptional targets of Brachyury. We examined the embryonic expression of a subset of murine orthologs of Ciona Brachyury target genes in the notochord to assess its conservation throughout chordate evolution. We focused on analyzing the Leprecan gene family, which in mouse is composed of three genes, as opposed to the single-copy Ciona gene. We found that all three mouse Leprecan genes are expressed in the notochord. Additionally, while Leprecan expression in C. intestinalis is confined to the notochord, expression of its mouse orthologs includes dorsal root ganglia, limb buds, branchial arches, and developing kidneys. These results have interesting implications for the evolution and development of chordates.
摘要
脊索是脊索动物的一个决定性特征,并且T盒转录因子短尾相关蛋白已被证明在所有已研究的脊索动物的脊索发育中是必需的。在海鞘文昌鱼中,至少44个脊索基因已被鉴定为短尾相关蛋白的真正转录靶标。我们检测了文昌鱼短尾相关蛋白靶基因的小鼠直系同源基因子集在脊索中的胚胎表达,以评估其在整个脊索动物进化过程中的保守性。我们专注于分析富含亮氨酸蛋白聚糖基因家族,在小鼠中该家族由三个基因组成,而文昌鱼中是单拷贝基因。我们发现所有三个小鼠富含亮氨酸蛋白聚糖基因都在脊索中表达。此外,虽然文昌鱼中富含亮氨酸蛋白聚糖的表达局限于脊索,但其小鼠直系同源基因的表达包括背根神经节、肢芽、鳃弓和发育中的肾脏。这些结果对脊索动物的进化和发育具有有趣的启示。
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1
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Evol Dev. 2008 Jan-Feb;10(1):37-51. doi: 10.1111/j.1525-142X.2007.00212.x.
2
Leprecan distribution in the developing and adult kidney.赖氨酰氧化酶前体在发育中和成年肾脏中的分布。
Kidney Int. 2007 Jul;72(1):82-91. doi: 10.1038/sj.ki.5002269. Epub 2007 May 2.
3
Development and evolution of chordate cartilage.脊索动物软骨的发育与演化
J Exp Zool B Mol Dev Evol. 2007 May 15;308(3):325-35. doi: 10.1002/jez.b.21157.
4
CRTAP is required for prolyl 3- hydroxylation and mutations cause recessive osteogenesis imperfecta.脯氨酰3-羟化需要CRTAP,其突变会导致隐性成骨不全。
Cell. 2006 Oct 20;127(2):291-304. doi: 10.1016/j.cell.2006.08.039.
5
Deuterostome phylogeny reveals monophyletic chordates and the new phylum Xenoturbellida.后口动物系统发育揭示了单系的脊索动物和新的异涡虫门。
Nature. 2006 Nov 2;444(7115):85-8. doi: 10.1038/nature05241. Epub 2006 Oct 18.
6
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Evol Dev. 2006 Jul-Aug;8(4):370-7. doi: 10.1111/j.1525-142X.2006.00109.x.
7
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10
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