Literature DB >> 2590381

Structure of rhesus monkey relaxin predicted by analysis of the single-copy rhesus monkey relaxin gene.

R J Crawford1, V E Hammond, P J Roche, P D Johnston, G W Tregear.   

Abstract

The gene encoding rhesus monkey relaxin has been investigated. A cDNA library was prepared using corpus luteal RNA from a pregnant rhesus monkey, cDNA clones encoding relaxin were isolated and the nucleotide sequence was determined. The amino acid sequence of rhesus monkey preprorelaxin, predicted from the cDNA, demonstrates that the sequence has not been strongly conserved when compared with that of man, although features characteristic of the relaxin molecule have been maintained. This structural information will allow production of rhesus monkey relaxin, leading to studies investigating the bioactivity of relaxin in a homologous primate system. Southern blot analysis indicated that there is only one relaxin gene in the rhesus monkey and baboon genomes. In this respect these primate genomes are different from the human genome which contains two relaxin genes.

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Year:  1989        PMID: 2590381     DOI: 10.1677/jme.0.0030169

Source DB:  PubMed          Journal:  J Mol Endocrinol        ISSN: 0952-5041            Impact factor:   5.098


  3 in total

1.  Primate relaxin: synthesis of gorilla and rhesus monkey relaxins.

Authors:  J D Wade; S S Layden; P F Lambert; H Kakouris; G W Tregear
Journal:  J Protein Chem       Date:  1994-04

2.  DNA sequence and analysis of human chromosome 9.

Authors:  S J Humphray; K Oliver; A R Hunt; R W Plumb; J E Loveland; K L Howe; T D Andrews; S Searle; S E Hunt; C E Scott; M C Jones; R Ainscough; J P Almeida; K D Ambrose; R I S Ashwell; A K Babbage; S Babbage; C L Bagguley; J Bailey; R Banerjee; D J Barker; K F Barlow; K Bates; H Beasley; O Beasley; C P Bird; S Bray-Allen; A J Brown; J Y Brown; D Burford; W Burrill; J Burton; C Carder; N P Carter; J C Chapman; Y Chen; G Clarke; S Y Clark; C M Clee; S Clegg; R E Collier; N Corby; M Crosier; A T Cummings; J Davies; P Dhami; M Dunn; I Dutta; L W Dyer; M E Earthrowl; L Faulkner; C J Fleming; A Frankish; J A Frankland; L French; D G Fricker; P Garner; J Garnett; J Ghori; J G R Gilbert; C Glison; D V Grafham; S Gribble; C Griffiths; S Griffiths-Jones; R Grocock; J Guy; R E Hall; S Hammond; J L Harley; E S I Harrison; E A Hart; P D Heath; C D Henderson; B L Hopkins; P J Howard; P J Howden; E Huckle; C Johnson; D Johnson; A A Joy; M Kay; S Keenan; J K Kershaw; A M Kimberley; A King; A Knights; G K Laird; C Langford; S Lawlor; D A Leongamornlert; M Leversha; C Lloyd; D M Lloyd; J Lovell; S Martin; M Mashreghi-Mohammadi; L Matthews; S McLaren; K E McLay; A McMurray; S Milne; T Nickerson; J Nisbett; G Nordsiek; A V Pearce; A I Peck; K M Porter; R Pandian; S Pelan; B Phillimore; S Povey; Y Ramsey; V Rand; M Scharfe; H K Sehra; R Shownkeen; S K Sims; C D Skuce; M Smith; C A Steward; D Swarbreck; N Sycamore; J Tester; A Thorpe; A Tracey; A Tromans; D W Thomas; M Wall; J M Wallis; A P West; S L Whitehead; D L Willey; S A Williams; L Wilming; P W Wray; L Young; J L Ashurst; A Coulson; H Blöcker; R Durbin; J E Sulston; T Hubbard; M J Jackson; D R Bentley; S Beck; J Rogers; I Dunham
Journal:  Nature       Date:  2004-05-27       Impact factor: 49.962

3.  Relative expression of proprotein convertases in rat ovaries during pregnancy.

Authors:  Simon Cm Kwok; Damayanti Chakraborty; Michael J Soares; Guoli Dai
Journal:  J Ovarian Res       Date:  2013-12-11       Impact factor: 4.234
  3 in total

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