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Title: Intragenic recombination at the human phosphoglucomutase 1 locus: Predictions fulfilled

Journal Article · · Proceedings of the National Academy of Sciences of the United States of America; (United States)
 [1];  [2]
  1. Radiation Effects Research Foundation, Minami-Ku, Hiroshima (Japan)
  2. Univ. of Michigan, Ann Arbor, MI (United States)
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In 1982, the authors advanced a phylogeny that attributed eight alleles of the phosphoglucomutase 1 locus (PGM1) to three independent mutations in a primal allele, followed by four intragenic recombination events involving these mutants. The recent description of a cDNA probe for this locus now renders it possible to test the validity of this phylogeny. cDNAs of PGM1 reverse-transcribed from mRNAs obtained from Japanese individuals possessing eight different electrophoretically defined alleles (PGM1*1+, PGM1*1-, PGM1*2+, PGM1*2-, PGM1*3+, PGM1*3-, PGM1*7+, PGM1*7-) were amplified by PCR and the sequences were determined. Only three different base substitutions were identified when PGM1*1+ was taken as the reference allele, as follows: an A to T transversion at residue 265, a C to T transition at residue 723, and a T to C transition at residue 1320. The second of these substitutions creates a BglII restriction enzyme site and the third creates a Nla III site. At the amino acid level, these substitutions alter amino acid 67 from Lys to Met, amino acid 220 from Arg to Cys, and amino acid 419 from Tyr to His, respectively. These mutations resulted in the electrophoretic properties defining PGM1*7+, the PGM1*2+, and PGM1*1- alleles, respectively. Subsequent intragenic recombinational events resulted in the remaining four alleles. For two of these latter alleles (PGM1*7- and PGM1*3-), more than one type of intragenic crossover can produce the allele. These findings verify the predicted phylogeny and provide a case study in the evolution of complexity at a genetic locus.

OSTI ID:
7105279
Journal Information:
Proceedings of the National Academy of Sciences of the United States of America; (United States), Vol. 90:22; ISSN 0027-8424
Country of Publication:
United States
Language:
English

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Related Subjects

59 BASIC BIOLOGICAL SCIENCES
ENZYMES
GENE MUTATIONS
GENE RECOMBINATION
GENES
BIOLOGICAL EVOLUTION
MUTATIONS
ORGANIC COMPOUNDS
PROTEINS
550400* - Genetics