UNIPROT:Q00604 - FACTA Search

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Query: UNIPROT:Q00604 (X-linked)
16,883 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The segregation of X-linked markers (alpha GAL, PGK-1, HPRT and G6PD) was analysed in hybrids between gamma ray-irradiated mink fibroblasts and Chinese hamster cells, or between mink cells and mouse hepatoma cells. Based on the segregation data and the data of cytogenetics analysis of a few hybrids, the order of the mink genes was deduced as alpha GAL--PGK-1--HPRT--G6PD--qter. This order differs from that reported for human and murine genes, in spite of the very obvious similarity between G-banding of the mink and human X chromosomes. Therefore, at least one reversion is responsible for the differences observed for the human and mink X chromosomes.
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PMID:[The distribution of 4 genes (alpha GAL, PGK-1, HPRT and G6PD) on the X chromosome of the American mink (Mustela vison)]. 284 77

Choroideremia (McK30310), an X-linked retinal dystrophy, causes progressive night blindness, visual field constriction, and eventual central blindness in affected males by the third to fourth decade of life. The biochemical basis of the disease is unknown, and prenatal diagnosis is not available. Subregional localization of the choroideremia locus to Xq13-22 was accomplished initially by linkage to two restriction-fragment-length polymorphisms (RFLPs), DXYS1 (Xq13-q21.1) and DXS3 (Xq21.3-22). We have now extended our linkage analysis to 12 families using nine RFLP markers between Xp11.3 and Xq26. Recombination frequencies of 0%-4% were found between choroideremia and five markers (PGK, DXS3, DXYS12, DXS72, and DXYS1) located in Xq13-22. The families were also used to measure recombination frequencies between RFLP loci to provide parameters for the program LINKMAP. Multipoint analysis with LINKMAP provided overwhelming evidence for placing the choroideremia locus within the region bounded by DXS1 (Xq11-13) and DXS17 (Xq21.3-q22). At a finer level of resolution, multipoint analysis suggested that the choroideremia locus was proximal to DXS3 (384:1 odds) rather than distal to it. Data were insufficient, however, to distinguish between a gene order that puts choroideremia between DXS3 and DXYS1 and one that places choroideremia proximal to both RFLP loci. These results provide linkage mapping of choroideremia and RFLP loci in this region that will be of use for further genetic studies as well as for clinical applications in this and other human diseases.
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PMID:Multipoint linkage analysis of loci in the proximal long arm of the human X chromosome: application to mapping the choroideremia locus. 288 87

Chromosome-mediated gene transfer (CMGT) lines were shown to be convenient donors of genomic sequences from specific regions of the genome adjacent to selectable markers. Two libraries were prepared from CMGT lines carrying sequences spanning the long arm of the human X chromosome from HPRT (Xq26) to G6PD (Xq28). A series of 22 CMGT lines sharing the same selectable marker (HPRT) were used in conjunction with five standard translocation hybrids to provide fine-resolution regional mapping of the nonrepetitive X specific probes isolated from the libraries. The order of three human recombinant sequences with respect to known X-linked markers is: PGK (Xq13), 05-02 (DXS78); HPRT (Xq26), 07-03 (DXS79); surface antigen S11 (Xq27), 07-14 (DXS80); and G6PD (Xq28).
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PMID:Isolation and regional mapping of random X sequences from distal human X chromosome. 299 37

In order to map human PGK sequences, DNA was prepared from 55 human-mouse somatic cell lines. The DNA was digested to completion with HindIII and Southern filters prepared. These filters were hybridized at high stringency conditions to a human PGK cDNA. Mouse and human X-linked and autosomal bands were distinguished and, in addition to known X-linked sequences, two autosomal PGK sequences were mapped: a 1-kb band to chromosome 19 and a 5-kb band to chromosome 6. The PGK cDNA probe was also hybridized to flow-sorted chromosomes confirming the presence of PGK sequences on the X chromosome and chromosomes 6 and 19.
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PMID:Mapping of human autosomal phosphoglycerate kinase sequence to chromosome 19. 301 19

Phosphoglycerate kinase was purified from a number of tissues obtained at autopsy from a subject with the deficiency. Properties of the mutant enzyme were compared to those of PGK purified from tissue obtained from normal subjects. The purified enzyme from the propositus contained two components, a minor fraction (about 2-5%) which behaved similarly to the normal enzyme during the purification procedure, and a major fraction (greater than 95%) which could not be purified by the same procedure. The major fraction demonstrated a number of other properties which differed from the normal. These included a tendency to form aggregates, increased heat sensitivity and altered nucleotide substrate specificity. The smaller fraction appeared to have effectively identical properties to that of the normal enzyme. In keeping with its X-linked mode of inheritance, phosphoglycerate kinase from all normal tissues appeared to have identical kinetic properties, although evidence for minor variations, presumably due to post-translational modifications, was obtained.
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PMID:Phosphoglycerate kinase: studies on normal and a mutant human enzyme. 310 75

The gene coding for the glycolytic enzyme phosphoglycerate kinase (PGK-1) is X-linked in mammals and has a G+C-rich 5' region characteristic of several constitutive genes. Despite the fact that PGK-1 is constitutively expressed, it is transcriptionally regulated in female cells by X chromosome inactivation. To study the expression and regulation of the PGK-1 gene, we have analyzed the binding of trans-acting factors to the 5' region of the PGK-1 gene. We detect at least three distinct binding activities that interact in a sequence-specific manner in vitro with at least six different sites in the 5' region. Two of these binding activities generate DNase I-protected footprints centered approximately 360 bp and 130 bp upstream of the transcription start point. We have examined the promoter specificity of the three binding activities in gel mobility-shift assays by competition with cloned promoter fragments of other genes. None of the binding activities interacts exclusively with X-linked promoters. However, one activity binds preferentially to G+C-rich promoters, and another activity appears to bind preferentially to only two of the promoters tested. Previous studies have demonstrated that one HpaII/MspI site, which is included within a footprinted region observed in this study, is fully methylated in the inactive X chromosome and totally unmethylated on the active X chromosome. Competition studies using synthetic oligonucleotides containing 5-methylcytosine at all CpG sites in this region demonstrate that DNA methylation does not significantly alter the affinity between the corresponding binding activity and this binding site.
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PMID:DNA binding factors for the CpG-rich island containing the promoter of the human X-linked PGK gene. 317 64

The number of clonal precursors of granulosa cells in mouse ovarian follicles has been estimated using a technique based on the phenomenon of random X-chromosome inactivation of somatic cells and the use of an X-linked alloenzyme variant of the glycolytic enzyme PGK-1. The granulosa cells of follicles were oligoclonal in origin and founded by a small number of cells (about 5) which was consistent with histological observations. When the analysis was extended to two subcompartments of the follicle, the mural and cumulus granulosa cells, the results indicated that the cumulus and mural granulosa cells had a common origin.
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PMID:The number of clonal precursors of the follicular epithelium in the mouse ovary. 318 34

About half of the chimeras produced by aggregation of two mouse embryos are sex chimeras composed of both XX and XY cells. We developed a fast and easy method to identify sex chimeras by using electrophoretic bimorphism of an X-linked enzyme, phosphoglycerate kinase-1 (PGK-1), as a marker. When embryos resulting from the crossing of a Pgk-1b/Pgk-1b female and a Pgk-1a/Y male are aggregated, the genotype of sex chimeras is Pgk-1b/Pgk-1a----Pgk-1b/Y. Most of these were identifiable from the PGK-1 electrophoretic pattern of blood cells (i.e., AB type) and the appearance of genitalia (male type or apparently abnormal). Genotypes of functional sperm in the testes of the male-type sex chimeras were also identifiable from the PGK-1 electrophoretic pattern of progenies. Examination of gonads of the sex chimeras revealed that a considerable proportion was hermaphorditic. With this method, reasonable numbers of male-type sex chimeras and hermaphrodites may be selected and used as material for investigating sexual differentiation.
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PMID:Fast and easy detection of mouse sex chimeras using electrophoretic polymorphism of phosphoglycerate kinase-1, an X chromosome-linked enzyme. 320 11

Enzyme activities of X-linked phosphoglycerate kinase (PGK-1) and autosomal glucose phosphate isomerase (GPI-1) were determined in intact mouse blastocysts and isolated inner cell masses (ICMs). Blastocysts were recovered from the uterus on day 4 of gestation and cultured overnight in vitro. ICMs were isolated by treatment with calcium ionophore A23187. On day 4, approximately 35% of the total activity of both PGK-1 and GPI-1 was located in the ICM. After overnight culture, the PGK-1 activity of the whole blastocyst nearly doubled, due to the activation of only the maternally derived gene coding for PGK-1. In the ICM, however, a pronounced decrease of PGK-1 activity was measured: only 10% of the total PGK-1 activity was measured in the ICM on day 5. In contrast to PGK-1, GPI-1 activity of the intact blastocyst remained stable from day 4 to day 5. In the ICM, the GPI-1 activity did decline, but to a lesser extent than PGK-1 activity: 20% of total GPI-1 activity was found in the ICM on day 5. These results, when compared with the data of Handyside and Hunter, suggest that the decline in GPI-1 activity in the ICM is due to a change in the ratio of trophectoderm (TE) to ICM cells. The greater reduction of PGK-1 activity in the ICM cannot, however, be explained solely by this mechanism. To explain the observed additional decrease, we postulate that Pgk-1 is not activated in the ICM prior to day 6. This implies that on day 4 maternal Pgk-1 is activated in the TE exclusively.
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PMID:Sequential expression of maternally inherited phosphoglycerate kinase-1 in the early mouse embryo. 342 11

Skin tumors were induced in (C3H/HeN X C3H/HeN-PGK-1a)F1 female mice, heterozygous at the X-linked phosphoglycerate kinase-1 (PGK-1) locus, by exposure to the carcinogenic influence of ultraviolet radiation (UVR), 3-methylcholanthrene [(MCA) CAS: 56-49-5], or benz[a]pyrene [(BP) CAS: 50-32-8]. An assessment of the clonal origin of these tumors was accomplished through an analysis of the PGK-1 enzyme phenotype expressed by the transformed cells. In vitro culture was employed as a means of depleting nontransformed cells of host origin from the induced tumors. Cultured lines derived from tumors induced by each of the above agents were found to express only one of the two enzyme forms encoded by the host genotype, consistent with the probability that all the UVR-, MCA-, and BP-induced tumors examined in this study were monoclonal in origin. For further substantiation of the monoclonality of UVR-induced tumors, 2 UVR-induced tumors were enzymatically dissociated immediately following excision from the primary hosts, and the resulting cell suspensions were cloned in soft agar. Upon analysis, each set of clones selected in soft agar expressed only a single PGK-1 enzyme form. To rule out the possibility that the apparent monoclonality of culture-adapted tumor lines was due to in vitro selection, tumors that arose in UVR-treated PGK-1a/b female heterozygote mice were transplanted into PGK-1a and PGK-1b homozygous recipients. These transplanted tumors expressed a single PGK-1 allozyme following growth in recipients that were genetically homozygous for the major PGK-1 enzyme form expressed by the tumor prior to transplantation. These data strongly support the concept that most, if not all, UVR-induced tumors are derived from the progeny of a single transformed cell. This observation is important to the understanding of the nature of tumor-specific transplantation antigens expressed by individual UVR-induced tumors and indicates that such antigens also are clone specific. In addition, the results of this study indicate that polyclonality does not play a significant role in the generation of cellular and phenotypic heterogeneity known to be present within individual UVR-induced tumors.
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PMID:Clonal origin of tumors induced by ultraviolet radiation. 345 37

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