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Query: UMLS:C0026986 (
myelodysplastic syndrome
)
14,926
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The 5q- syndrome is a
myelodysplastic syndrome
with specific hematological features and a good prognosis. Using molecular mapping techniques, we have previously defined the critical region of gene loss of the 5q- chromosome in the 5q- syndrome as the approximately 5-Mb region at 5q31-q33 flanked by the genes for FGF1 and
IL12B
. This region is completely represented by a series of overlapping YACs, and we are currently generating a transcription map with the aim of identifying the tumor-suppressor gene associated with the development of the 5q- syndrome. In this study two techniques have been used: first, the screening of full-length cDNA libraries with radiolabeled YACs and second, the mapping of chromosome 5-specific expressed sequence tags (ESTs) to a YAC contig. A 1-Mb YAC contig encompassing the CSF1R gene has been used to screen a fetal brain cDNA library, and this has resulted in the identification of two genes comprising one known gene previously localized to the region (ADRB2) and one known gene previously unlocalized. Six of 135 chromosome 5-specific ESTs were localized by PCR screening to the YAC contig mapping to the critical region of the 5q- syndrome. IMAGE cDNA clones for each of the six ESTs have been obtained. These seven (excluding ADRB2) newly assigned cDNA clones were subjected to further analysis. The expression patterns of each of the cDNA clones have been established in a range of human tissues, including bone marrow. Six of seven cDNAs are expressed in human bone marrow. Six of seven cDNAs have no known homology to any deposited human sequences, and one (C29) is dihydropyrimidinase-related protein-3, a member of a novel gene family. Genomic localization and expression patterns would suggest that these newly assigned cDNAs represent potential candidate genes for the 5q- syndrome.
...
PMID:Novel genes mapping to the critical region of the 5q- syndrome. 933 64
The 5q- syndrome is a distinct type of
myelodysplastic syndrome
(
MDS
) characterised by refractory anaemia, morphological abnormalities of megakaryocytes, and del(5q) as the sole cytogenetic abnormality. In contrast to patients with therapy-related
MDS
with 5q deletions, 5q- syndrome patients have a favourable prognosis and a low rate of transformation to acute leukaemia. We have previously delineated a common deleted region of 5.6 Mb between the gene for fibroblast growth factor acidic (FGF1) and the subunit of interleukin 12 (
IL12B
) in two patients with 5q- syndrome and small deletions, del(5)(q31q33). The present study used fluorescence in situ hybridisation (FISH) analysis of these and a third 5q- syndrome patient with a small deletion, del(5)(q33q34), to refine further the critical deleted region. This resulted in the narrowing of the common deleted region within 5q31.3-5q33 to approximately 3 Mb, flanked by the adrenergic receptor beta 2 (ADRB2) and IL/2B genes. The common region of loss in these three 5q- syndrome patients includes the macrophage colony-stimulating factor-1 receptor (CSF1R), secreted protein, acidic, cysteine-rich (SPARC), and glutamate receptor (GR1A1) genes. This 5q- syndrome critical region is telomeric to and distinct from the other critical regions on 5q associated with
MDS
and acute myeloid leukaemia.
...
PMID:Molecular cytogenetic delineation of the critical deleted region in the 5q- syndrome. 962 37
The q31-q33 region of chromosome 5 includes a number of genes encoding growth factors, growth factor receptors, and hormone/neurotransmitter receptors. The human fibroblast growth factor 1 locus (FGF1) resides in this region of chromosome 5, which is frequently lost in
myelodysplastic syndromes
and acute myeloid leukemia patients. Other disease loci, including the loci for limb-girdle muscular dystrophy and an autosomal dominant deafness, have been mapped on this region, but their genes have not been isolated. It was shown that the critical region lost in two patients with the 5q- syndrome resides between FGF1 and
IL12B
. We previously reported the construction of a yeast artificial chromosome (YAC) contig spanning 330 kb around the FGF1 gene. Here we report the isolation of additional YAC clones that extend 290 kb from the previous contig. Sequence-tagged sites developed from the outermost YAC ends were utilized in the contig cloning of two P1 clones P1Y2 and P1Y8. Together, these YAC and P1 clones span 720 kb around the FGF1 locus. With the use of fluorescence in situ hybridization, a physical map has been constructed of these P1 and GRL (glucocorticoid receptor locus) probes on metaphase and interphase chromosomes. On the basis of our work and the known orientation of GRL transcription, the determined order of these loci on chromosome 5q31.3-q32 is centromere-P1Y8-3'[FGF1]5'-P1Y2-5'[GRL]3'-telome re. Knowing the transcriptional orientation of the FGF1 gene relative to the centromere will now facilitate the directional cloning of clinically important genes that may reside in this region.
...
PMID:Isolation of yeast artificial chromosomes containing the entire transcriptional unit of the human FGF1 gene: a 720-kb contig spanning human chromosome 5q31.3-->q32. 977 2
The 5q- syndrome is a
myelodysplastic syndrome
with the 5q deletion as the sole karyotypic abnormality. The human ATX1 homologue (HAH1), encodes a copper-binding protein with a role in antioxidant defence. We have mapped this gene to the 3 Mb critical region of gene loss of the 5q- syndrome within 5q32, flanked by the genes for ADRB2 and
IL12B
, using gene dosage analysis. Fine physical mapping of the HAH1 gene within this genomic interval was then performed by screening YAC and BAC contigs spanning the critical region of the 5q- syndrome using PCR amplification. The HAH1 gene maps immediately adjacent to the SPARC gene at 5q32, and is flanked by the genetic markers D5S1838 and D5S1419. The HAH1 gene is expressed in haematological tissues and plays a role in antioxidant defence. Antioxidant levels are low in most cancers and the importance of antioxidant enzymes in cancer genesis is well recognised. Genomic localisation, function and expression would suggest that the HAH1 gene represents a candidate gene for the 5q-syndrome.
...
PMID:Physical mapping of the human ATX1 homologue (HAH1) to the critical region of the 5q- syndrome within 5q32, and immediately adjacent to the SPARC gene. 1098 93
