EC:2.7.7.48 - FACTA Search

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Query: EC:2.7.7.48 (transcriptase)
9,479 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

An antiserum prepared against thymosin alpha 1, a hormone secreted by the thymus gland, effectively neutralized the AIDS-associated virus [HTLV-III/LAV (clone BH-10)] and blocked its replication in H9 cells. Reverse transcriptase activity and expression of the HTLV-III/LAV antigens p15 and p24 were inhibited by purified immunoglobulin G preparations of antisera to thymosin alpha 1. The antiviral activity of the antiserum was found to be due to a region of homology between thymosin alpha 1 and p17, a product of the gag gene of HTLV-III/LAV. Comparison of the primary sequences of thymosin alpha 1 and the gag protein revealed a 44% to 50% homology in an 18-amino acid region, between positions 11 and 28 on thymosin alpha 1 and 92 and 109 on the gag protein. The effectiveness of the thymosin alpha 1 antiserum and of immunoglobulin G-enriched preparations in blocking replication of HTLV-III(BH-10) in H9 cells suggests a novel approach to the development of an AIDS vaccine. A vaccine directed against the gag protein might overcome the problem of genetic drift in the envelope region of the virus and be useful against all genetic variants of HTLV-III/LAV.
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PMID:Neutralization of HTLV-III/LAV replication by antiserum to thymosin alpha 1. 301 Apr 64

The genes CDKN2B (MTS2) and CDKN2 (MTS1) encoding the proteins p15 and p16 are both located on chromosomal band 9p21, a locus at which frequent homozygous and heterozygous deletions occur in many primary human tumors, including esophageal carcinoma. CDKN2 and CDKN2B belong to a family of cyclin-dependent kinase 4 inhibitors (INK41) and control cell proliferation during the G1 phase of the cell cycle. Their inactivation may contribute to uncontrolled growth in human cancers. To investigate whether CDKN2B and CDKN2 are involved in esophageal tumorigenesis, we studied homozygous deletion, intragenic mutation, and messenger RNA (mRNA) expression of CDKN2 and CDKN2B in nine esophageal squamous cancer cell lines. Polymerase chain reaction (PCR) amplification revealed that five of the nine cell lines (55%) manifested homozygous deletions of CDKN2B, CDKN2, and/or flanking loci on chromosomal band 9p21. Reverse transcriptase-PCR (RT-PCR) was used to examine CDKN2 and CDKN2B mRNA in the nine cell lines. Lack of CDKN2 and CDKN2B mRNA correlated perfectly with homozygous deletion involving these genes. No subtle intragenic mutations of CDKN2B or CDKN2 were detected by DNA sequencing of their entire coding sequences in any cell lines lacking homozygous deletion. Two of the cell lines manifested homozygous deletions excluding CDKN2; one of these two deletions also excluded CDKN2B. These results suggest that inactivation of CDKN2B and CDKN2 may contribute to the malignant phenotype in esophageal cells and that homozygous deletion may be the predominant mechanism for inactivation of CDKN2B and CDKN2. Alternatively, a gene or genes adjacent to CDKN2B/CDKN2 may constitute the target(s) of deletion at this locus.
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PMID:Genomic DNA and messenger RNA expression alterations of the CDKN2B and CDKN2 genes in esophageal squamous carcinoma cell lines. 754 37

Transaldolase (TAL) is a key enzyme of the pentose phosphate pathway, which is responsible for generation of reducing equivalents to protect cellular integrity from reactive oxygen intermediates. While exons 2 and 3 are highly repetitive, the complete TAL-H gene is mapped to a single genomic locus (TALDO1(2)) by several independent approaches. Southern blot hybridization of a 827-bp 3' EcoRI fragment of the TAL-H cDNA to human-mouse somatic cell hybrid DNA localized TALDO1 to the p13-->pter region of chromosome 11. Fluorescence in situ hybridization with a 15-kb genomic fragment harboring exons 1 and 2 mapped TALDO1 to 11p15.4-p15.5. A truncated and mutated segment of TAL-H exon 5 terminating with a poly(A) tail was identified in a pseudogene locus (TALDOP1) on chromosome 1. Reverse transcriptase-PCR studies of human-mouse somatic cell hybrids revealed the presence of the functional TAL-H gene on chromosome 11 and its absence on human chromosome 1. Mapping of radiation hybrids placed TALDO1 between markers WI-1421 and D11S922 on 11p15.
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PMID:The human transaldolase gene (TALDO1) is located on chromosome 11 at p15.4-p15.5. 933 83

The promoter region of the cyclin-dependent kinase inhibitor p15(INK4B) contains a CpG island that is hypermethylated in many hematologic malignancies. To explore the relationship between patterns of methylation and gene transcription, we used bisulfite genomic sequencing to obtain a detailed analysis of methylation in acute leukemia, leukemia cell lines, and normal lymphocytes. The entire CpG island region of p15 was largely devoid of methylation in normal lymphocytes, but methylation of varying density was found in primary acute leukemia. Methylation density was generally conserved between the alleles from each sample, but marked heterogeneity for the specific CpG sites methylated was observed. Patterns of methylation were compared and expression assessed with reverse-transcriptase polymerase chain reaction (RT-PCR). The density of methylation within the CpG island, and not any specific location, correlates best with transcriptional loss. Leukemias with methylation of approximately 40% of the CpG dinucleotides on each allele had complete gene silencing, with variable, but diminished expression with less dense CpG island methylation. Our results suggest that the transcriptional silencing of p15 in conjunction with aberrant hypermethylation is best understood as an evolutionary process that involves progressively increasing methylation of the entire p15 CpG island.
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PMID:p15(INK4B) CpG island methylation in primary acute leukemia is heterogeneous and suggests density as a critical factor for transcriptional silencing. 1049 17

The t(7;11)(p15;p15) translocation is a recurrent aberration observed in acute myeloblastic leukaemia (AML) and chronic myelogenous leukaemia (CML). It has been shown that the NUP98 gene at 11p15 is fused with the HOXA9 gene at 7p15 in AML with t(7;11). We report the first case with CML expressing the NUP98/HOXA9 fusion transcript. A 27-year-old Japanese man was initially diagnosed as in the chronic phase of Philadelphia-positive CML. At the diagnosis of myeloid blast crisis, the karyotype evolved to 46, XY, t(7;11)(p15;p15), t(9;22)(q34;q11). Reverse transcriptase polymerase chain reaction identified the NUP98/HOXA9 transcript, suggesting that the NUP98/HOXA9 fusion protein could play a critical role in the progression to blast crisis.
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PMID:Expression of the NUP98/HOXA9 fusion transcript in the blast crisis of Philadelphia chromosome-positive chronic myelogenous leukaemia with t(7;11)(p15;p15). 1084 35

The t(11;20)(p15;q11) is a rare but recurrent translocation that so far has been described in only four acute myeloid leukemias (AMLs), two treatment-related myelodysplastic syndromes (t-MDSs), and one case of polycythemia vera. Recently, the t(11;20) was shown to result in a fusion of the NUP98 and TOP1 genes, with expression of the NUP98/TOP1 chimera encoded by the der(11)t(11;20), but not of the reciprocal TOP1/NUP98 on the der(20)t(11;20). The genomic breakpoints were subsequently mapped to introns 13 and 7 of NUP98 and TOP1, respectively. We present here a t-MDS with a three-way variant translocation, t(10;20;11)(q24;q11;p15), that generates a der(11)t(11;20) but not a der(20)t(11;20), strongly suggesting that the der(11) harbors the critical genetic rearrangement. Reverse transcriptase-polymerase chain reaction (RT-PCR) revealed a NUP98/TOP1 fusion in which exon 13 of NUP98 was fused in-frame with exon 8 of TOP1. Extra long (XL) genomic PCR and subsequent sequence analyses showed that the breakpoint in NUP98 occurred at nucleotide (nt) 3461 of intron 13, close to a MER (medium reiteration frequency interspersed repetitive element) repeat, and that the breakpoint in TOP1 was at nt 1436 of intron 7, downstream of a MIR (mammalian-wide interspersed repeats) repetitive element. Genomic XL PCR did not amplify the reciprocal TOP1/NUP98, nor was this chimera expressed, as expected from the cytogenetic finding. The present results provide further support for the involvement of the NUP98/TOP1 transcript, but not of the reciprocal one, in the development of MDS/AML. Furthermore, the three cases genomically characterized to date have all been treatment-related and have all harbored breakpoints in intron 13 of NUP98 and intron 7 of TOP1, suggesting that these introns are susceptible to chemotherapy-induced breakage.
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PMID:Expression of NUP98/TOP1, but not of TOP1/NUP98, in a treatment-related myelodysplastic syndrome with t(10;20;11)(q24;q11;p15). 1197 59

The nucleoporin gene NUP98 has been reported to be fused to 9 partner genes in hematologic malignancies with 11p15 translocations. The NUP98-HOXA9 fusion gene has been identified in acute myeloid leukemia (AML) and chronic myelogenous leukemia with t(7;11)(p15;p15). We report here a novel NUP98 partner gene, HOXA13, in a patient with de novo AML having t(7;11)(p15;p15). The HOXA13 gene is part of the HOXA cluster genes and contains 2 exons, encoding a protein of 338 amino acids with a homeodomain. The NUP98-HOXA13 fusion protein consists of the N-terminal phenylalanine-glycine repeat motif of NUP98 and the C-terminal homeodomain of HOXA13, similar to the NUP98-HOXA9 fusion protein. Reverse transcriptase-polymerase chain reaction (RT-PCR) analysis in various leukemic cell lines showed that the HOXA13 gene was expressed significantly more frequently in acute monocytic leukemic cell lines than in other leukemic cell lines (P = 0.039). HOXA13 and three HOXA cluster genes (A9, A10, A11) located at the 5' end of the HOXA9 gene were frequently expressed in myeloid leukemic cell lines. Our results revealed that t(7;11)(p15;p15) was not a single chromosomal abnormality at the molecular level. The protein encoded by the NUP98-HOXA13 fusion gene is similar to that encoded by NUP98-HOXA9, and the expression pattern of the HOXA13 gene in leukemic cell lines is similar to that of the HOXA9 gene, suggesting that the NUP98-HOXA13 fusion protein may play a role in leukemogenesis through a mechanism similar to that of the NUP98-HOXA9 fusion protein.
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PMID:The chromosome translocation t(7;11)(p15;p15) in acute myeloid leukemia results in fusion of the NUP98 gene with a HOXA cluster gene, HOXA13, but not HOXA9. 1211 33

A rare chromosomal translocation, (11;20)(p15;q11), was detected in a 29-year-old male patient diagnosed with acute monocytic leukemia (AMoL) according to the French-American-British classification criteria. Whole chromosome painting analysis with paints for chromosomes 11 and 20 confirmed the result of conventional cytogenetic analysis. Reverse transcriptase polymerase chain reaction revealed the NUP98-TOP1 fusion transcript. To our knowledge, this is the second report of the translocation involving NUP98 and TOP1 genes in AMoL. On reviewing the literature, we suggest that t(11;20)(p15q11) is associated with myelocytic disorders rather than lymphocytic proliferative diseases.
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PMID:Generation of the NUP98-TOP1 fusion transcript by the t(11;20) (p15;q11) in a case of acute monocytic leukemia. 1264 54

A t(11;20)(p15;q11) is a rare but recurrent chromosomal aberration, reported in one case of polycythemia vera and a few cases of de novo acute myelocytic leukemia (AML) and therapy-related myelodysplastic syndrome (t-MDS). In t-MDS cases, the translocation resulted in the NUP98/TOP1 fusion transcript. The NUP98 gene has been suggested as the target for therapy-related malignancies. The reciprocal TOP1/NUP98 chimera, however, has not yet been encountered. We report a further case of de novo AML, subtype M2 in the French-American-British (FAB) classification, in which the reverse-transcriptase polymerase chain reaction (RT-PCR) revealed the NUP98/TOP1 chimera and also, for the first time, its reciprocal TOP1/NUP98. The literature review disclosed that, among six cases of de novo AML with t(11;20), the NUP98 gene was shown to be involved in one case and the NUP98/TOP1 chimera was detected in another. The translocation seems to be frequently associated with the FAB M2 subtype, younger age, hyperleukocytosis, and poor prognosis; thus, this translocation may identify a subset of not-therapy-related AML patients with shared clinical features.
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PMID:A t(11;20)(p15;q11) may identify a subset of nontherapy-related acute myelocytic leukemia. 1503 93

Chromosomal 11p15 abnormality of therapy-related myelodysplastic syndrome (t-MDS)-acute myeloid leukemia (AML) is rare. NUP98-NSD3 fusion transcripts have been detected previously in one patient with AML and one patient with t-MDS having t(8;11)(p11;p15). Here we present the case of a 60-year-old man with radiation-associated MDS (r-MDS) carrying chromosome abnormalities, including t(8;11)(p11;p15) and del(1)(p22p32). Fluorescence in situ hybridization analysis demonstrated that the NUP98 gene at 11p15 was split by the translocation. Southern blot analysis of bone marrow cells showed both rearrangements of NUP98 and NSD3 genes. Reverse transcriptase-polymerase chain reaction (RT-PCR) followed by sequence analysis revealed the presence of both NUP98-NSD3 and NSD3-NUP98 fusion transcripts. Expression analysis by RT-PCR showed that NSD3 as well as NSD1 and NSD2 was ubiquitously expressed in leukemic cell lines and Epstein-Barr virus transformed B lymphocyte cell lines derived from the normal adult lymphocytes examined. Two isoforms of NSD3, NSD3S and NSD3L (but not NSD3L2), were expressed in leukemic cell lines and were fused to NUP98 in our patient, suggesting that qualitative change of these two isoforms of NSD3 by fusion with NUP98 might be related to leukemogenesis, although the function of each isoform of the NSD3 gene remains unclear.
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PMID:NUP98-NSD3 fusion gene in radiation-associated myelodysplastic syndrome with t(8;11)(p11;p15) and expression pattern of NSD family genes. 1938 29

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