Literature DB >> 9661198

Production of biologically active salmon calcitonin in the milk of transgenic rabbits.

C McKee1, A Gibson, M Dalrymple, L Emslie, I Garner, I Cottingham.   

Abstract

Salmon calcitonin (sCT) is an example of one of the many bioactive peptides that require amidation of the carboxy terminus for full potency. We describe a method for the production of amidated sCT in the mammary gland of transgenic rabbits. Expression of a fusion protein comprising human alpha lactalbumin joined by an enterokinase cleavable linker to sCT was directed to the mammary gland under the control of the ovine beta lactoglobulin promoter. C-terminal amidation in vivo was achieved by extending the sCT by a single glycine residue that provides a substrate for endogenous amidating activity in the mammary gland. Full characterization of the released sCT demonstrated it to be equivalent to synthetic standard in terms of structure, purity, and potency.

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Year:  1998        PMID: 9661198     DOI: 10.1038/nbt0798-647

Source DB:  PubMed          Journal:  Nat Biotechnol        ISSN: 1087-0156            Impact factor:   54.908


  9 in total

Review 1.  Animal transgenesis: state of the art and applications.

Authors:  Eduardo O Melo; Aurea M O Canavessi; Mauricio M Franco; Rodolfo Rumpf
Journal:  J Appl Genet       Date:  2007       Impact factor: 3.240

2.  Development of transgenic mice expressing calcitonin as a beta-lactoglobulin fusion protein in mammary gland.

Authors:  Ahmadreza Niavarani; Somaye Dehghanizadeh; Sirous Zeinali; Mohsen Karimi; Marc Magliano; Minoo Rassoulzadegan
Journal:  Transgenic Res       Date:  2005-10       Impact factor: 2.788

3.  Production of the catalytic core of human peptidylglycine α-hydroxylating monooxygenase (hPHMcc) in Escherichia coli.

Authors:  Sumit Handa; Tyler J Spradling; Daniel R Dempsey; David J Merkler
Journal:  Protein Expr Purif       Date:  2012-04-25       Impact factor: 1.650

4.  Stable production of human insulin-like growth factor 1 (IGF-1) in the milk of hemi- and homozygous transgenic rabbits over several generations.

Authors:  N Zinovieva; C Lassnig; D Schams; U Besenfelder; E Wolf; S Müller; L Frenyo; J Seregi; M Müller; G Brem
Journal:  Transgenic Res       Date:  1998-11       Impact factor: 2.788

5.  Could protein tertiary structure influence mammary transgene expression more than tissue specific codon usage?

Authors:  Zuyong He; Yiqiang Zhao; Gui Mei; Ning Li; Yaosheng Chen
Journal:  Transgenic Res       Date:  2010-06-19       Impact factor: 2.788

Review 6.  The transgenic rabbit as model for human diseases and as a source of biologically active recombinant proteins.

Authors:  Zs Bosze; L Hiripi; J W Carnwath; H Niemann
Journal:  Transgenic Res       Date:  2003-10       Impact factor: 2.788

7.  Expression systems and species used for transgenic animal bioreactors.

Authors:  Yanli Wang; Sihai Zhao; Liang Bai; Jianglin Fan; Enqi Liu
Journal:  Biomed Res Int       Date:  2013-03-17       Impact factor: 3.411

8.  A murine leukemia virus with Cre-LoxP excisible coding sequences allowing superinfection, transgene delivery, and generation of host genomic deletions.

Authors:  Clifford L Wang; J Graeme Hodgson; Tiffany Malek; Finn Skou Pedersen; Matthias Wabl
Journal:  Retrovirology       Date:  2004-04-05       Impact factor: 4.602

9.  Identification and characterization of rabbit ROSA26 for gene knock-in and stable reporter gene expression.

Authors:  Dongshan Yang; Jun Song; Jifeng Zhang; Jie Xu; Tianqing Zhu; Zhong Wang; Liangxue Lai; Y Eugene Chen
Journal:  Sci Rep       Date:  2016-04-27       Impact factor: 4.379
  9 in total

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