Genomes and Genes
Gene Symbol: Esa4
Description: esterase A4
Alias: Es-17, Es17, esterase 17
- Genetically defined lysosomal acetylesterase EC 22.214.171.124 in the cauda epididymidis of mouse, rat, and manJ Trefzger
Abteilung für Chemische Pathologie, Universitat Freiburg, Germany
Histochemistry 98:373-9. 1992..1.1.6). Control experiments involving isoelectric focusing revealed that this acetylesterase was identical with the genetically defined homologues ES-17, ES-6, and ES-A4 in mouse, rat, and man, respectively...
- Linkage among esterase-6 (Es-6), neural cell adhesion molecule (NCAM), and apolipoprotein C-III (apoc-3) genes on rat chromosome 8E Kobayashi
Imamichi Institute for Animal Reproduction, Ibaraki, Japan
Mamm Genome 3:656-8. 1992
- Human tyrosinase gene, mapped to chromosome 11 (q14----q21), defines second region of homology with mouse chromosome 7D E Barton
Department of Human Genetics, Yale University School of Medicine, New Haven, Connecticut 06510
Genomics 3:17-24. 1988..Comparison of the genetic maps of human chromosome 11 and mouse chromosome 7 leads to hypotheses regarding the evolution of human chromosome 11...
- Conserved linkage within a 4-cM region of mouse chromosome 9 and human chromosome 11T K Antonucci
Genetics 107:463-75. 1984..Evidence is presented for the homology of this chromosome region with the ESA4 - UPS - APO-AI region on the long arm of human chromosome 11.
- Esterase-17 (ES-17): characterization and genetic location on chromosome 9 of a bis-p-nitrophenyl phosphate-resistant esterase of the house mouse (Mus musculus)J Otto
Biochem Genet 21:37-48. 1983..1.1.6). ES-17 was shown to be controlled by the structural locus Es-17, located on chromosome 9. From test-cross data, a gene order of Es-17-8.7 +/- 2.5 map units-Mpi-1-10.2 +/- 2.7 map units-Mod-1 was established...
- Linkage of the structural gene for uroporphyrinogen I synthase to markers on mouse chromosome 9 in a cross between feral and inbred miceT K Antonucci
Biochem Genet 20:703-10. 1982..Feral mice collected at Skive, Denmark, have been characterized at several biochemical loci; multiple differences from inbred strains make this a useful stock for linkage analysis...