Alam S M Khorshed, Ain Rupasri, Konno Toshihiro, Ho-Chen Jennifer K, Soares Michael J
Institute of Maternal-Fetal Biology and the Division of Cancer & Developmental Biology, Department of Pathology and Laboratory Medicine, University of Kansas Medical Center, Kansas City, Kansas 66160, USA.
Mamm Genome. 2006 Aug;17(8):858-77. doi: 10.1007/s00335-006-0010-1. Epub 2006 Aug 4.
In the rat there is a large family of paralogous genes related to prolactin (PRL). Members of the PRL family are expressed in cell- and temporal-specific patterns in the anterior pituitary, uterus, and placenta. An overriding feature of the PRL family is its association with pregnancy. In this investigation, we used information derived from the public rat genome database as a tool for identifying new members of the rat PRL family. The entire rat PRL gene family locus spans approximately 1.7 megabases (Mb) on Chromosome 17. Genes possessed either 5- or 6-exon organization patterns. We provide information on three newly identified genes orthologous to previously identified members of the mouse PRL gene family [placental lactogen-Ialpha (PL-Ialpha), PL-Ibeta, and proliferin (PLF)] and a new member of the PRL family, termed PRL-like protein-P (PLP-P). Information is also presented on the existence of multiple PLP-M transcripts, which are generated by alternative splicing. Expansion of the PRL family has occurred independently in rodents versus the cow and does not exist in the human and dog. Elucidation of the rat PRL gene family locus provides tools for studying the genetics and biology of the rat PRL family and new insights into species-specific gene family expansion.
在大鼠中,存在一个与催乳素(PRL)相关的庞大的旁系同源基因家族。PRL家族成员在前脑垂体、子宫和胎盘中以细胞和时间特异性模式表达。PRL家族的一个主要特征是其与妊娠相关。在本研究中,我们利用从公共大鼠基因组数据库获得的信息作为鉴定大鼠PRL家族新成员的工具。整个大鼠PRL基因家族位点在17号染色体上跨度约1.7兆碱基(Mb)。这些基因具有5外显子或6外显子的组织模式。我们提供了与小鼠PRL基因家族先前鉴定的成员[胎盘催乳素-Iα(PL-Iα)、PL-Iβ和增殖蛋白(PLF)]直系同源的三个新鉴定基因以及PRL家族一个新成员(称为PRL样蛋白-P(PLP-P))的信息。还介绍了由可变剪接产生的多个PLP-M转录本的存在情况。PRL家族在啮齿动物中与牛独立发生了扩展,在人类和狗中不存在。大鼠PRL基因家族位点的阐明为研究大鼠PRL家族的遗传学和生物学提供了工具,并为物种特异性基因家族扩展提供了新的见解。
