Literature DB >> 3778496

Isolation and sequence analysis of a full-length cDNA for human M creatine kinase.

M B Perryman, S A Kerner, T J Bohlmeyer, R Roberts.   

Abstract

A full length cDNA for human M creatine kinase has been isolated and sequenced. The cDNA contains 77 bp of 5' untranslated, 338 bp of 3' untranslated sequence and the entire coding region (1146 bp) for human M creatine kinase. The M creatine kinases from different species share considerable sequence homology within the coding region (77-91%) and in amino acid sequence (82-97%). Little or no sequence homology is observed in the 3' untranslated sequence of the mammalian M creatine kinases, although canine and human creatine kinase share overall 80% sequence homology in 5' untranslated sequence. A unique 8 bp sequence was identified in the 5' untranslated regions of mammalian M creatine kinase but is not present in B creatine kinase cDNA. The degree of sequence conservation observed implies an evolutionary constraint on M creatine kinase structure beyond that which would be expected for the maintenance of enzymatic function.

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Year:  1986        PMID: 3778496     DOI: 10.1016/0006-291x(86)90732-1

Source DB:  PubMed          Journal:  Biochem Biophys Res Commun        ISSN: 0006-291X            Impact factor:   3.575


  25 in total

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2.  Analysis of mRNAs under translational control during Xenopus embryogenesis: isolation of new ribosomal protein clones.

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Review 3.  Molecular characterization of the creatine kinases and some historical perspectives.

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4.  NcoI and TaqI RFLPs for human M creatine kinase (CKM)

Authors:  M B Perryman; J F Hejtmancik; T Ashizawa; R Armstrong; S C Lin; R Roberts; H F Epstein
Journal:  Nucleic Acids Res       Date:  1988-09-12       Impact factor: 16.971

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Review 9.  Approaching the multifaceted nature of energy metabolism: inactivation of the cytosolic creatine kinases via homologous recombination in mouse embryonic stem cells.

Authors:  J van Deursen; B Wieringa
Journal:  Mol Cell Biochem       Date:  1994 Apr-May       Impact factor: 3.396

10.  Doxorubicin selectively inhibits muscle gene expression in cardiac muscle cells in vivo and in vitro.

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