Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
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Drug
Enzyme
Compound
Query: EC:3.4.24.55 (
PTR
)
433
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Karyotypic homology in relation to human chromosome 9 (HSA 9) was studied through comparative mapping of the immunoglobulin-processed pseudogene C epsilon 3 (IGHEP2) in primates. IGHEP2, which has been mapped to 9p24.2 --> p24.1 in the human genome, was assigned to
PTR
11q34 (common chimpanzee), PPA 11q34 (pygmy chimpanzee), PPY 13q16 (orangutan),
HLA
8qter (white-handed gibbon), HAG 8qter (agile gibbon), and MFU 14q22 (Japanese macaque) by fluorescence in situ hybridization. To verify the breakpoints of presumed pericentric inversions on the ancestral great ape chromosomes, three DNA markers on HSA 9, cCI9-37 (9q22.1 --> q22.2), cCI9-135 (9q22.32 --> q22.33), and cCI9-208 (9p13.3 --> p13.2), were also assigned to
PTR
/PPA 11p11 (cCI9-37 and 135),
PTR
/PPA 11q22 (cCI9-208), PPY 13q22 (cCI9-37 and 135), and PPY 13q12 (cCI9-208). These data more clearly define the position of the breakpoints of pericentric inversions that occurred in the human-chimp ancestral and chimpanzee ancestral chromosomes and support the hypothesis of HSA 9 genesis previously derived from banding analyses of HSA 9 and its homologs.
...
PMID:Molecular anatomy of human chromosome 9: comparative mapping of the immunoglobulin processed pseudogene C epsilon 3 (IGHEP2) in primates. 864 93
Platelet transfusion recipients become alloimmunized to foreign
HLA
and HPA antigens, impairing their responses to further platelet transfusions (platelet transfusion refractoriness;
PTR
). Anti-
HLA
and HPA antibodies account for the majority of clinically significant alloimmunizations. Poor transfusion responses due to alloimmunization may be overcome by selection of
HLA
or HPA-compatible donors. Several approaches including use of white cell-depleted products have been shown to prevent or delay alloimmunization in transfusion recipients. This paper focused on: 1) factors involved in the development of platelet alloimmunization, 2) diagnosis of
PTR
and platelet alloimmunization, 3) effective management of the alloimmunization.
...
PMID:[Platelet transfusion refractoriness and effective management of platelet alloimmunization]. 930 6
Karyotypic homologies in relation to human chromosome 14 and 9 were studied through comparative mapping of the immunoglobulin C epsilon genes in higher primates by fluorescence in situ hybridization (FISH) technique. The C epsilon genes will be suitable probes for the analysis of evolutionary rearrangements due to that the multiple recombinational events such as gene duplications and deletions have occurred repeatedly in the immunoglobulin CH gene family (IGH@) during the course of primate evolution. IGH@ locating on the terminal region of human chromosome 14 (HSA14), at band HSA14q32.33, has generated multiple pseudogenes and among subclasses of IGH@ the C epsilon genes have shown most dynamic changes with generating both truncated type (C epsilon 2) and processed type (C epsilon 3) pseudogenes. In this study, chromosomal homologies and rearrangements on HSA14 (C epsilon 1) and HSA9 (C epsilon 3) in relation to the evolutionary genesis of their primate homologous chromosomes in speciation were investigated by comparative mapping with FISH and chromosome painting (ZOO-FISH) techniques. Comparative mapping of the C epsilon 1 gene at HSA14q32.33 was carried out in seven species of nonhuman primates: common chimpanzee (
PTR
), pygmy chimpanzee (PPA), gorilla (GGO), orangutan (PPY), white-handed gibbon (
HLA
), agile gibbon (HAG), and Japanese macaque (MFU). The C epsilon 1 gene was assigned to the telomeric region of HSA14 homologues in each species, namely, PTR15q32, PPA15q32, GGO18q16, PPY15q32, HLA17qter, HAG17qter, and MFU7q29, respectively. These results suggested that HSA14 has high degree of syntenic organization with its primate homologues confirmed by ZOO-FISH. Concerning HSA9, comparative mapping of the C epsilon 3 gene at HSA9p24.2-->p24.1 was performed. The mapped positions indicated the HSA9 homologous regions detected by ZOO-FISH in each species, namely, PTR11q34, PPA11q34, GGO13q22, PPY13q16, HLA8qter, HAG8qter, and MFU14q22, respectively, suggesting that several dynamic chromosomal rearrangements including at least twice pericentric inversions have occurred during the course of hominoid evolution. The comparison of syntenic groups and painting results has provided a hypothesis of the evolutionary genesis of HSA9 and its homologues with defined breakpoints on the present chromosomes. Likewise, studies on karyotype evolution will be promoted by combining comparative mapping with ZOO-FISH that can more clearly define the chromosomal rearrangements among species.
...
PMID:Studies on karyotype evolution in higher primates in relation to human chromosome 14 and 9 by comparative mapping of immunoglobulin C epsilon genes with fluorescence in situ hybridization. 1085 38
We have investigated the evolutionary history of the 4q35 paralogous region, and of a sub-family of interspersed LSau repeats. In HSA, 4q35 duplications were localized at 1q12, 3p12.3, 4q35, 10q26, 20cen, whereas duplicons and interspersed LSau repeats simultaneously labeled the p arm of acrocentric chromosomes. A multi-site localization of 4q35-like sequences was also observed in
PTR
, GGO, PPY,
HLA
(Hominoidea) and PAN (Old World monkey), thus indicating that duplications of this region have occurred extensively in the two clades, which diverged at least 25 million years ago. In HSA,
PTR
and PAN, 4q35-derived duplicons co-localized with rDNA, whereas in GGO and PPY this association was partially lacking. In PAN, the single- and multi-site distribution of rDNA and paralogous sequences, respectively, indicates a different timing of sequence dispersal. The sub-family of interspersed LSau repeats showed a lesser dispersal than 4q35 duplications both in man and great apes. This finding suggests that duplications and repeated sequences have undergone different expansion/contraction events during evolution. The mechanisms underlying the dispersal of paralogous regions may be further derived through studies comparing the detailed structural organization of these genomic regions in man and primates.
...
PMID:Human genome dispersal and evolution of 4q35 duplications and interspersed LSau repeats. 1238 99
PTR
is a serious problem in patients being treated for hematologic disorders. Two patients with acute leukemia developed
PTR
after allogeneic BMT from one HLA-antigen-mismatched mother attributable to
HLA
antibodies, which could not be detected in their serum before BMT.
HLA
antibodies, whose specificity resembled that of each patient, were detected in each donor's serum. Each donor had probably been immunized during pregnancy by their partner's
HLA
antigens expressed by the fetus, consequently, transplanted donor-derived cells provoked
HLA
antibodies in each recipient early after BMT, and those
HLA
antibodies induced
PTR
. If the mothers are selected as donors for their children, they should be tested for the presence of
HLA
antibodies.
...
PMID:Platelet transfusion refractoriness attributable to HLA antibodies produced by donor-derived cells after allogeneic bone marrow transplantation from one HLA-antigen-mismatched mother. 2088 Mar 81
