Wang Shur-Jen, Laulederkind Stanley J F, Hayman G Thomas, Petri Victoria, Liu Weisong, Smith Jennifer R, Nigam Rajni, Dwinell Melinda R, Shimoyama Mary
Human and Molecular Genetics Center, Medical College of Wisconsin, Department of Physiology, Medical College of Wisconsin and Department of Surgery, Medical College of Wisconsin, 8701 Watertown Plank Road, Milwaukee, WI53226, USA
Human and Molecular Genetics Center, Medical College of Wisconsin, Department of Physiology, Medical College of Wisconsin and Department of Surgery, Medical College of Wisconsin, 8701 Watertown Plank Road, Milwaukee, WI53226, USA.
Database (Oxford). 2015 Jan 28;2015. doi: 10.1093/database/bau128. Print 2015.
Rats have been used extensively as animal models to study physiological and pathological processes involved in human diseases. Numerous rat strains have been selectively bred for certain biological traits related to specific medical interests. Recently, the Rat Genome Database (http://rgd.mcw.edu) has initiated the PhenoMiner project to integrate quantitative phenotype data from the PhysGen Program for Genomic Applications and the National BioResource Project in Japan as well as manual annotations from biomedical literature. PhenoMiner, the search engine for these integrated phenotype data, facilitates mining of data sets across studies by searching the database with a combination of terms from four different ontologies/vocabularies (Rat Strain Ontology, Clinical Measurement Ontology, Measurement Method Ontology and Experimental Condition Ontology). In this study, salt-induced hypertension was used as a model to retrieve blood pressure records of Brown Norway, Fawn-Hooded Hypertensive (FHH) and Dahl salt-sensitive (SS) rat strains. The records from these three strains served as a basis for comparing records from consomic/congenic/mutant offspring derived from them. We examined the cardiovascular and renal phenotypes of consomics derived from FHH and SS, and of SS congenics and mutants. The availability of quantitative records across laboratories in one database, such as these provided by PhenoMiner, can empower researchers to make the best use of publicly available data. Database URL: http://rgd.mcw.edu.
大鼠已被广泛用作动物模型,以研究人类疾病所涉及的生理和病理过程。许多大鼠品系已针对与特定医学兴趣相关的某些生物学特性进行了选择性培育。最近,大鼠基因组数据库(http://rgd.mcw.edu)启动了PhenoMiner项目,以整合来自基因组应用物理基因组计划和日本国家生物资源项目的定量表型数据,以及来自生物医学文献的人工注释。PhenoMiner作为这些整合表型数据的搜索引擎,通过使用来自四种不同本体/词汇表(大鼠品系本体、临床测量本体、测量方法本体和实验条件本体)的术语组合在数据库中进行搜索,促进了跨研究数据集的挖掘。在本研究中,盐诱导的高血压被用作模型,以检索挪威棕鼠、淡褐色带帽高血压(FHH)和达尔盐敏感(SS)大鼠品系的血压记录。这三个品系的记录作为比较它们衍生的近交系/同源系/突变后代记录的基础。我们检查了源自FHH和SS的近交系、SS同源系和突变体的心血管和肾脏表型。一个数据库中跨实验室的定量记录的可用性,如PhenoMiner提供的这些记录,可使研究人员能够充分利用公开可用的数据。数据库网址:http://rgd.mcw.edu。