Topic
Pseudogene
About: Pseudogene is a research topic. Over the lifetime, 5528 publications have been published within this topic receiving 336634 citations. The topic is also known as: Ψ & pseudogenes.
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TL;DR: Purified yeast CPH exhibits peptidyl-prolyl cis-trans isomerase activity, albeit to a far lesser extent than the mammalian protein.
115 citations
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TL;DR: The data support the view that the GIMAP proteins are involved in the control of cell survival not only in cells of the immune system as commonly anticipated.
114 citations
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TL;DR: Sequence comparison reveals that short duplications, probably resulting from slipped-strand mispairing, account for many small length differences between sequences but that major mutational hotspots are localized in three small areas, two of which show potential secondary structure.
Abstract: The noncoding DNA region of the chloroplast genome, flanked by the genes rbcL and psaI (ORF36), has been sequenced for seven species of the grass family (Poaceae). This region had previously been observed as a hotspot area for length mutations. Sequence comparison reveals that short duplications, probably resulting from slipped-strand mispairing, account for many small length differences between sequences but that major mutational hotspots are localized in three small areas, two of which show potential secondary structure. Mutation in one of these hotspots appears to be a result of more complex recombination events. All seven species contain a pseudogene for rpl23 and evidence is presented that this pseudogene is being maintained by gene conversion with the functional gene. Different transition/transversion biases and AT contents between the pseudogene and the surrounding noncoding sequences are noted. In the subfamily Panicoideae there is a deletion in which almost 1 kb of ancestral sequence, including the 3′ end of the rpl23 pseudogene, has been replaced by a non-homologous 60-base sequence of unknown origin. Two other deletions of almost the same region have occurred in the grass family. The deleted noncoding region has mutational and compositional properties similar to the rbcL coding sequence and the rpl23 pseudogene. The three independent deletions, as well as the pattern of mutation in the localized hotspots, indicate that such noncoding DNA may be misleading for studies of phylogenetic inference.
114 citations
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TL;DR: It is found that the organization of OR genomic clusters is well conserved between humans and mice in many chromosomal locations, and the numbers of large genomic clusters are nearly the same for human and mice.
114 citations
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TL;DR: To identify sequence elements involved in tissue-specific expression and hormonal regulation, the promoter regions of the human amylase genes were sequenced and compared with those of the corresponding mouse genes.
Abstract: Cosmid clones containing 250 kilobases of genomic DNA from the human amylase gene cluster have been isolated. These clones contain seven distinct amylase genes which appear to comprise the complete multigene family. By sequence comparison with the cDNAs, we have identified two pancreatic amylase genes and three salivary amylase genes. Two truncated pseudogenes were also recovered. Intergenic distances of 17 to 22 kilobases separate the amylase gene copies. Within the past 10 million years, duplications, gene conversions, and unequal crossover events have resulted in a very high level of sequence similarity among human amylase gene copies. To identify sequence elements involved in tissue-specific expression and hormonal regulation, the promoter regions of the human amylase genes were sequenced and compared with those of the corresponding mouse genes. The promoters of the human and mouse pancreatic amylase genes are highly homologous between nucleotide -160 and the cap site. Two sequence elements thought to influence pancreas-specific expression of the rodent genes are present in the human genes. In contrast, similarity in the 5' flanking sequences of the salivary amylase genes is limited to several short sequence elements whose positions and orientations differ in the two species. Some of these sequence elements are also associated with other parotid-specific genes and may be involved in their tissue-specific expression. A glucocorticoid response element and a general enhancer element are closely associated in several of the amylase promoters.
114 citations