PURPOSE: To determine the nucleotide sequence, amino acid sequence and tissue specificity of zebrafish alphaA-crystallin. METHODS: RACE, both 3' and 5', was used to clone the zebrafish alphaA-crystallin gene. The peptide sequence of the encoded protein was deduced and compared to cavefish, shark, amphibian, bird and human orthologues using the CLUSTAL W algorithm. alphaA-crystallin transcript was evaluated in brain, heart, lens, liver, skeletal muscle/skin, and spleen by semi-quantitative RT-PCR. RESULTS: The 173 amino acid sequence of zebrafish alphaA-crystallin was determined to be 73% and 86% similar to its human and cavefish orthologues, respectively. We detected high expression of zebrafish alphaA-crystallin in the lens and very low expression in liver and spleen. CONCLUSIONS: Few amino acids identified as being functionally important to chaperone function differ between zebrafish and mammalian alphaA-crystallin. The expression of alphaA-crystallin is mainly confined to the lens in both taxa. These data suggest that zebrafish alphaA-crystallin plays a physiologically limited role outside of the zebrafish lens, similar to its mammalian orthologues.
PURPOSE: To determine the nucleotide sequence, amino acid sequence and tissue specificity of zebrafish alphaA-crystallin. METHODS: RACE, both 3' and 5', was used to clone the zebrafish alphaA-crystallin gene. The peptide sequence of the encoded protein was deduced and compared to cavefish, shark, amphibian, bird and human orthologues using the CLUSTAL W algorithm. alphaA-crystallin transcript was evaluated in brain, heart, lens, liver, skeletal muscle/skin, and spleen by semi-quantitative RT-PCR. RESULTS: The 173 amino acid sequence of zebrafish alphaA-crystallin was determined to be 73% and 86% similar to its human and cavefish orthologues, respectively. We detected high expression of zebrafish alphaA-crystallin in the lens and very low expression in liver and spleen. CONCLUSIONS: Few amino acids identified as being functionally important to chaperone function differ between zebrafish and mammalian alphaA-crystallin. The expression of alphaA-crystallin is mainly confined to the lens in both taxa. These data suggest that zebrafish alphaA-crystallin plays a physiologically limited role outside of the zebrafish lens, similar to its mammalian orthologues.
Authors: M P Bova; O Yaron; Q Huang; L Ding; D A Haley; P L Stewart; J Horwitz Journal: Proc Natl Acad Sci U S A Date: 1999-05-25 Impact factor: 11.205
Authors: Ping Zou; Shu-Yu Wu; Hanane A Koteiche; Sanjay Mishra; Daniel S Levic; Ela Knapik; Wenbiao Chen; Hassane S Mchaourab Journal: Exp Eye Res Date: 2015-07-04 Impact factor: 3.467
Authors: Amber A Smith; Keith Wyatt; Jennifer Vacha; Thomas S Vihtelic; J S Zigler; Graeme J Wistow; Mason Posner Journal: FEBS J Date: 2006-02 Impact factor: 5.542