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Query: EC:2.7.7.49 (
reverse transcriptase
)
31,746
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Two different hypotheses have been proposed to explain the observation that some genomes contain more processed pseudogenes than others. One predicts that processed pseudogene abundance is inversely proportional to the substrate specificity of the
reverse transcriptase
that generates processed pseudogenes. The other predicts that the amount of processed pseudogenes found in genomes is proportional to the length of oogenesis. Here, we test the oogenesis hypothesis by analyzing the data from 6 studies that described the number of pseudogenes on different chromosomes of the human and/or mouse genomes. Our results show a significant overabundance of processed pseudogenes in the X chromosomes and a significant underrepresentation of processed pseudogenes in the
Y chromosome
of the human genome. These observations support the hypothesis that the number of processed pseudogenes is proportional to the length of oogenesis.
...
PMID:Processed pseudogenes are more abundant in human and mouse X chromosomes than in autosomes. 1680 23
When examining gene expression profiles for the purposes of assessing embryo quality, it is imperative that sex be considered, because many embryonic transcripts have sex-related expression patterns. The objective of this study was to systematically examine eight
Y chromosome
linked genes (DDX3Y, EIF1AY, HSFY, SRY, TSPY, USP9Y, ZFY, and ZRSR2Y) to characterize their expression in bovine blastocysts and to examine the usefulness of this expression for the purpose of RNA-based embryo sexing. In order to examine the expression of these genes, pools of blastocysts (groups of 10 and 20) as well as single embryos (N = 50) were analyzed with
reverse transcriptase
polymerase chain reaction (RT-PCR) and
reverse transcriptase
quantitative PCR (RT-qPCR). Of the 50 single embryos, 32 were concurrently sexed with DNA-based methods. Transcripts of DDX3Y, EIF1AY, TSPY, USP9Y, ZFY and ZRSR2Y were detected in the pooled and single blastocysts, but no transcripts were detected for HSFY or SRY. After performing DNA-based sexing experiments, we concluded that this expression was restricted to the male embryos. The consistency of the expression varied according to the gene as well as the specific primer set. Three genes were expressed in the full set of male embryos, DDX3Y, USP9Y, and ZRSR2Y and therefore represent good candidates for RNA-based sexing methods.
...
PMID:A novel approach to sexing bovine blastocysts using male-specific gene expression. 2234 5
Here we present a male patient with acute myeloid leukemia (AML) initially diagnosed as M5 and with karyotype 46,XY. After induction therapy, he underwent a HLA-matched allogeneic hematopoietic stem cell transplantation, and six years later he relapsed as AML M1 with an abnormal karyotype //47,XX,+10[2]/47,XX,+11[3]/48,XX,+10,+11[2]/46,XX[13]. Based on this, we tested the possibility of donor cell origin by FISH and molecular STR analysis. We found no evidence of
Y chromosome
presence by FISH and STR analysis consistent with the success of the allogeneic hematopoietic stem cell transplantation from the female donor. FISH studies confirmed trisomies and no evidence of MLL translocation either p53 or ATM deletion. Additionally 28 fusion common leukemia transcripts were evaluated by multiplex
reverse transcriptase
-polymerase chain reaction assay and were not rearranged. STR analysis showed a complete donor chimerism. Thus, donor cell leukemia (DCL) was concluded, being essential the use of cytological and molecular approaches. Pediatric DCL is uncommon, our patient seems to be the sixth case and additionally it presented a late donor cell leukemia appearance. Different extrinsic and intrinsic mechanisms have been considered to explain this uncommon finding as well as the implications to the patient.
...
PMID:Pediatric donor cell leukemia after allogeneic hematopoietic stem cell transplantation in AML patient from related donor. 2567 58
The human genome contains an unusually large number of processed pseudogenes. The fact that processed pseudogenes are roughly 33% more abundant in our X chromosome than in our autosomes suggests that this overabundance is the result of the fact that human oogenesis is much longer than that of non-mammalian species. Here, we analyze the origins of the processed pseudogenes found on the human
Y chromosome
to determine whether human spermatogenesis also contribute to this overabundance. Our results show that human processed pseudogenes not only retrotranspose to the
Y chromosome
, but are also produced by genes on the
Y chromosome
. Furthermore, the fact that X chromosomes are three times more abundant than Y chromosomes likely explains why the euchromatic density of processed pseudogenes is three times higher in the X chromosome than in the
Y chromosome
. The large number of processed pseudogenes found in our genome is therefore due to the low substrate specificity of the L1
reverse transcriptase
responsible for the reverse transcription of germline mRNA molecules into processed pseudogenes, as well as the life-long production of both male and female gametes.
...
PMID:Both male and female gamete generating cells produce processed pseudogenes in the human genome. 3035 44
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