α-Crystallin protein cognates in eggs of the moth, Plodia interpunctella: possible chaperones for the follicular epithelium yolk protein

α-Crystallin protein cognates were found in germ cells of the Indianmeal moth, Plodia interpunctella ( Shirk and Zimowska, 1997). A cDNA clone of 674 bp with a single open reading frame was isolated for a 25 000 molecular weight polypeptide member of this family, αCP25, and a single transcript of ap...

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Published in:Insect biochemistry and molecular biology 1998-03, Vol.28 (3), p.151-161
Main Authors: Shirk, Paul D, Broza, Rachel, Hemphill, Miriam, Perera, O.P
Format: Article
Language:English
Subjects:
alpha-crystallins
Amino Acid Sequence
Animals
Base Sequence
Binding Sites - genetics
chaperones
Crystallins - genetics
Crystallins - metabolism
DNA, Complementary - genetics
Egg Proteins - metabolism
Epithelium - metabolism
Female
Genes, Insect
germ cells
Insect Proteins - genetics
Insect Proteins - metabolism
Lepidoptera
Molecular Chaperones - genetics
Molecular Chaperones - metabolism
Molecular Sequence Data
Moths - genetics
Moths - metabolism
Ovum - metabolism
Sequence Homology, Amino Acid
small heat shock proteins
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Summary:α-Crystallin protein cognates were found in germ cells of the Indianmeal moth, Plodia interpunctella ( Shirk and Zimowska, 1997). A cDNA clone of 674 bp with a single open reading frame was isolated for a 25 000 molecular weight polypeptide member of this family, αCP25, and a single transcript of approximately 700 bp was found in the ovary of vitellogenic females. Both the DNA sequence and predicted amino acid sequence showed considerable homology with the embryonic lethal gene, l(2)efl, in Drosophila melanogaster. In addition to the sequence for l(2)efl, the predicted amino acid sequence for α cp25 also showed significant sequence similarity with the α-crystallin A chain polypeptides from the lenses of vertebrate eyes. An N-terminal hydrophobic aggregation site and a C-terminal protective binding site common to α-crystallin proteins were present in the predicted αcp25 and l(2)efl amino acid sequences, while only the C-terminal protective binding site was present in the small heat shock protein sequences from D. melanogaster. On the other hand, the cDNA sequence for αcp25 showed more similarity to small heat shock proteins in D. melanogaster. This evidence suggests that although the α-crystallin protein cognates in P. interpunctella evolved from a gene common with small heat shock protein genes, the amino acid sequence has converged on a structure similar to that of α-crystallin proteins. Native immunoblot analysis showed that the α-crystallin proteins formed high molecular weight complexes with the follicular epithelium yolk protein (FEYP) but not vitellin in yolk. An electroblot binding assay was used to show that the germ-cell α-crystallins of P. interpunctella bind specifically with the FEYP and that the binding was reversible in the presence of ATP or low pH. This evidence in conjunction with the evidence that the α-crystallins and FEYP form a stable complex that co-purifies from native egg proteins suggests that the α-crystallin cognates function as chaperones for the follicular epithelium yolk proteins in the embryos of P. interpunctella.
ISSN:0965-1748
1879-0240
DOI:10.1016/S0965-1748(97)00111-2