Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:2.4.2.8 (
hypoxanthine-guanine phosphoribosyltransferase
)
2,527
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Fibroblasts from a carrier of an X/1 translocation, 46,XY,t(X;1)(q28;q31), were fused with Chinese hamster cells. The resulting hybrids were analyzed for human No. 1 and X-chromosome markers. The data indicate that the loci for
PGM1
, PGD, PPH, and GuK1 are situated either in the long arm proximal to a break point in band 1q31 or in the short arm. The loci for Pep-C, FH, and GuK1 are located distal to the break point.
HPRT
and G6PD are probably situated distal to a break point in band q28 of the X chromosome; alpha-Gal A is situated proximal to the break point, either on the long or short arm of the chromosome.
...
PMID:Regional mapping of the human No. 1 and X chromosome in interspecific cell hybrids using an X/1 translocation. 123 34
Twenty-three silver fox x hamster somatic cell hybrid clones were used to assign 15 fox genes: GPI to chromosome 1; PGD to chromosome 2; MDH2 to chromosome 3; ESD to chromosome 6; LDHB to chromosome 8; NP to chromosome 10; LDHA to chromosome 11; APRT, ENO1, and
PGM1
to chromosome 12; IDH1 and MDH1 to chromosome 16; and GLA, G6PD, and
HPRT
to the X chromosome. High-resolution G-banding of human, cat, mink, and fox chromosomes containing homologous regions (according to genetic maps) revealed regions of putative homology. The results lend support to the suggestion that the most considerable karyotypic reorganization of the ancestral genome in the order Carnivora occurred during Canidae formation. The details of karyotypic evolution in mammals are discussed.
...
PMID:Silver fox gene mapping: conserved chromosome regions in the order Carnivora. 319 55
The karyotype of microcebus murinus (MIM) (lemuridae) is considered by Dutrillaux (1979) as the closest to the karyotype ancestral to all primates. A large number of homoeologies exists between the banding patterns of MIM chromosomes and those of man (HSA). We report a comparison of the gene maps of these two species which confirms most of these homoeologies. Fifteen cell hybrids were obtained by fusing MIM fibroblasts and an
HPRT
- Chinese hamster cell line. Twenty-seven enzyme markers were investigated. The following assignments were demonstrated: NP to chromosome MIM 2, homoeologous to HSA 14; the syntenic group PGD-ENO1-
PGM1
to MIM 3, homoeologous to HSA 1p; LDHA to MIM 5, homoeologous to HSA 11; Me1 to MIM 6, homoeologous to HSA 6; the syntenic group LDHB-CS-PEPB-ENO2-TPI to MIM 7, homoeologous to HSA 12; the syntenic group AK1-AK3 to MIM 10, which we considered to be homoeologous to HSA 9 (we do not consider MIM 9 to be homoeologous to HSA 9, as does Dutrillaux, 1979); GOT1 to MIM 15, homoeologous to HSA 10; the syntenic group
HPRT
-G6PD-PGK-GLA to MIM X. Synteny dissociation in three hybrids suggests closer linkage between G6PD and
HPRT
than between PGK-GLA and
HPRT
. Three syntenic groups, known in man, were confirmed in MIM but could not be assigned with full confidence: ACP1-MDH1, MP1-PKM2, and PEPD-GPI. GUK1 and PEPC, known to be syntenic in man, were found to be asyntenic in MIM and could not be assigned. PGM2 and SOD1 could not be assigned. A comparison of these gene assignments with those known in Cebus capucinus showed a remarkable homoeology for six chromosomes of the two species.
...
PMID:Gene mapping of Microcebus murinus (Lemuridae): a comparison with man and Cebus capucinus (Cebidae). 695 81
