Sequence analysis of βA3, βB3, and βA4 crystallins completes the identification of the major proteins in young human lens

Kirsten J. Lampi; Zhixiang Ma; Marjorie Shih; Thomas (Tom) Shearer; Jean B. Smith; David L. Smith; Larry L. David

doi:10.1074/jbc.272.4.2268

Sequence analysis of βA3, βB3, and βA4 crystallins completes the identification of the major proteins in young human lens

Kirsten J. Lampi, Zhixiang Ma, Marjorie Shih, Thomas (Tom) Shearer, Jean B. Smith, David L. Smith, Larry L. David

Research output: Contribution to journal › Article › peer-review

175 Scopus citations

Abstract

A combination of Edman sequence analysis and mass spectrometry identified the major proteins of the young human lens as αA, αB, αA1, αA3, βA4, βB1, βB2, βB3, γS, γC, and γD-crystallins and mapped their positions on two-dimensional electrophoretic gels. The primary structures of human βA1, βA3, βA4, and βB3-crystallin subunits were predicted by determining cDNA sequences. Mass spectrometric analyses of each intact protein as well as the peptides from trypsin-digested proteins confirmed the predicted amino acid sequences and detected a partially degraded form of βA3/A1 missing either 22 or 4 amino acid residues from its N-terminal extension. These studies were a prerequisite for future studies to determine how human lens proteins are altered during aging and cataract formation.

Original language	English (US)
Pages (from-to)	2268-2275
Number of pages	8
Journal	Journal of Biological Chemistry
Volume	272
Issue number	4
DOIs	https://doi.org/10.1074/jbc.272.4.2268
State	Published - 1997

ASJC Scopus subject areas

Biochemistry
Molecular Biology
Cell Biology

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title = "Sequence analysis of βA3, βB3, and βA4 crystallins completes the identification of the major proteins in young human lens",

abstract = "A combination of Edman sequence analysis and mass spectrometry identified the major proteins of the young human lens as αA, αB, αA1, αA3, βA4, βB1, βB2, βB3, γS, γC, and γD-crystallins and mapped their positions on two-dimensional electrophoretic gels. The primary structures of human βA1, βA3, βA4, and βB3-crystallin subunits were predicted by determining cDNA sequences. Mass spectrometric analyses of each intact protein as well as the peptides from trypsin-digested proteins confirmed the predicted amino acid sequences and detected a partially degraded form of βA3/A1 missing either 22 or 4 amino acid residues from its N-terminal extension. These studies were a prerequisite for future studies to determine how human lens proteins are altered during aging and cataract formation.",

author = "Lampi, {Kirsten J.} and Zhixiang Ma and Marjorie Shih and Shearer, {Thomas (Tom)} and Smith, {Jean B.} and Smith, {David L.} and David, {Larry L.}",

year = "1997",

doi = "10.1074/jbc.272.4.2268",

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T1 - Sequence analysis of βA3, βB3, and βA4 crystallins completes the identification of the major proteins in young human lens

AU - Lampi, Kirsten J.

AU - Ma, Zhixiang

AU - Shih, Marjorie

AU - Shearer, Thomas (Tom)

AU - Smith, Jean B.

AU - Smith, David L.

AU - David, Larry L.

PY - 1997

Y1 - 1997

N2 - A combination of Edman sequence analysis and mass spectrometry identified the major proteins of the young human lens as αA, αB, αA1, αA3, βA4, βB1, βB2, βB3, γS, γC, and γD-crystallins and mapped their positions on two-dimensional electrophoretic gels. The primary structures of human βA1, βA3, βA4, and βB3-crystallin subunits were predicted by determining cDNA sequences. Mass spectrometric analyses of each intact protein as well as the peptides from trypsin-digested proteins confirmed the predicted amino acid sequences and detected a partially degraded form of βA3/A1 missing either 22 or 4 amino acid residues from its N-terminal extension. These studies were a prerequisite for future studies to determine how human lens proteins are altered during aging and cataract formation.

AB - A combination of Edman sequence analysis and mass spectrometry identified the major proteins of the young human lens as αA, αB, αA1, αA3, βA4, βB1, βB2, βB3, γS, γC, and γD-crystallins and mapped their positions on two-dimensional electrophoretic gels. The primary structures of human βA1, βA3, βA4, and βB3-crystallin subunits were predicted by determining cDNA sequences. Mass spectrometric analyses of each intact protein as well as the peptides from trypsin-digested proteins confirmed the predicted amino acid sequences and detected a partially degraded form of βA3/A1 missing either 22 or 4 amino acid residues from its N-terminal extension. These studies were a prerequisite for future studies to determine how human lens proteins are altered during aging and cataract formation.

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Sequence analysis of βA3, βB3, and βA4 crystallins completes the identification of the major proteins in young human lens

Abstract

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