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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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Journal ArticleDOI
TL;DR: In Anaplasma marginale pseudogenes for two antigenically variable gene families, msp2 and msp3, appear in concert, which would allow these two gene families to act synergistically to evade the host immune response.
Abstract: Ehrlichiae are responsible for important tick-transmitted diseases, including anaplasmosis, the most prevalent tick-borne infection of livestock worldwide, and the emerging human diseases monocytic and granulocytic ehrlichiosis. Antigenic variation of major surface proteins is a key feature of these pathogens that allows persistence in the mammalian host, a requisite for subsequent tick transmission. In Anaplasma marginale pseudogenes for two antigenically variable gene families, msp2 and msp3, appear in concert. These pseudogenes can be recombined into the functional expression site to generate new antigenic variants. Coordinated control of the recombination of these genes would allow these two gene families to act synergistically to evade the host immune response.

143 citations

Journal ArticleDOI
01 May 2002-Genetica
TL;DR: Here the robustness of indel bias measurements in Drosophila are demonstrated, by comparing indel patterns in different types of nonfunctional sequences, both euchromatic and heterochromatic, transposable and non-transposable, repetitive and unique.
Abstract: Mutation is often said to be random. Although it must be true that mutation is ignorant about the adaptive needs of the organism and thus is random relative to them as a rule, mutation is not truly random in other respects. Nucleotide substitutions, deletions, insertions, inversions, duplications and other types of mutation occur at different rates and are effected by different mechanisms. Moreover the rates of different mutations vary from organism to organism. Differences in mutational biases, along with natural selection, could impact gene and genome evolution in important ways. For instance, several recent studies have suggested that differences in insertion/deletion biases lead to profound differences in the rate of DNA loss in animals and that this difference per se can lead to significant changes in genome size. In particular, Drosophila melanogaster appears to have a very high rate of deletions and the correspondingly high rate of DNA loss and a very compact genome. To assess the validity of these studies we must first assess the validity of the measurements of indel biases themselves. Here I demonstrate the robustness of indel bias measurements in Drosophila, by comparing indel patterns in different types of nonfunctional sequences. The indel pattern and the high rate of DNA loss appears to be shared by all known nonfunctional sequences, both euchromatic and heterochromatic, transposable and non-transposable, repetitive and unique. Unfortunately all available nonfunctional sequences are untranscribed and thus effects of transcription on indel bias cannot be assessed. I also discuss in detail why it is unlikely that natural selection for or against DNA loss significantly affects current estimates of indel biases.

143 citations

Journal ArticleDOI
TL;DR: Using a luciferase-reporter assay, it is demonstrated that the region between the two genes functions as a bi-directional promoter and, upon heat-shock, promoter activity in either direction increased by a factor of approximately 12.
Abstract: Although the mitochondrial chaperonin Hsp60 and its co-chaperonin Hsp10 have received great attention in the last decade, and it has been proposed that mutations and variations in these genes may be implicated in genetic diseases, the genome structure of the human HSP60 and HSP10 genes (also known as HSPD1 and HSPE1, respectively) has not been firmly established. The picture has been confused by the presence of many pseudogenes of both HSP60 and HSP10 and the long surviving assumption that the HSP60 gene is intron-less. An earlier report on the partial sequence of the human HSP60 gene and the presence of introns has largely been overlooked. We present the full sequence of the human HSP60 and HSP10 genes. The two genes are linked head to head comprising approximately 17 kb and consist of 12 and 4 exons, respectively. The first exon of the human HSP60 gene is non-coding and the first exon of the human HSP10 gene ends with the start codon. Analysis of human and mouse expressed sequence tag sequences in GenBank indicates that alternative splicing occurs resulting in HSP60 gene transcripts with different exon-1 sequences. By sequencing of the exons, the exon/intron boundaries and the region between the two genes in 10 Danish individuals (five couples), nine nucleotide variations and one intronic deletion have been detected that, by subsequent typing of one child from each couple, have been assigned to five haplotypes. The human HSP60 gene has been localised, by radiation hybrid mapping, between markers AFMA121YH1 and WI-10756 on chromosome 2. This location and the position of two homologous fragments in the Human Genome Assembly are consistent with cytogenetic position 2q33.1. Using a luciferase-reporter assay, we demonstrate that the region between the two genes functions as a bi-directional promoter. The transcriptional activity of the promoter fragment in the HSP60 direction is approximately twice that in the HSP10 direction under normal growth conditions and, upon heat-shock, promoter activity in either direction increased by a factor of approximately 12. One of the nucleotide variations detected is localised in a putative SP1-transcription-factor-binding site in the bidirectional promoter region and analysis of the transcriptional activity of the promoter fragment with this variation has shown that it does not affect transcription levels both with and without heat-shock.

143 citations

Journal ArticleDOI
TL;DR: Co-immunoprecipitation of tagged L1 constructs and mass spectrometry suggests candidate cofactors that interact with the L1 to modulate its activity and increases the understanding of the means by which the cell coexists with these genomic ‘parasites’.
Abstract: LINE1s occupy 17% of the human genome and are its only active autonomous mobile DNA. L1s are also responsible for genomic insertion of processed pseudogenes and >1 million non-autonomous retrotransposons (Alus and SVAs). These elements have significant effects on gene organization and expression. Despite the importance of retrotransposons for genome evolution, much about their biology remains unknown, including cellular factors involved in the complex processes of retrotransposition and forming and transporting L1 ribonucleoprotein particles. By co-immunoprecipitation of tagged L1 constructs and mass spectrometry, we identified proteins associated with the L1 ORF1 protein and its ribonucleoprotein. These include RNA transport proteins, gene expression regulators, post-translational modifiers, helicases and splicing factors. Many cellular proteins co-localize with L1 ORF1 protein in cytoplasmic granules. We also assayed the effects of these proteins on cell culture retrotransposition and found strong inhibiting proteins, including some that control HIV and other retroviruses. These data suggest candidate cofactors that interact with the L1 to modulate its activity and increase our understanding of the means by which the cell coexists with these genomic 'parasites'.

142 citations

Journal ArticleDOI
04 Mar 2010-Nature
TL;DR: Experimental evidence suggests that inactivation of the GAL3 and GAL80 regulatory genes facilitated the origin and long-term maintenance of the two gene network states, and introduces a remarkable type of intraspecific variation that may be widespread.
Abstract: Local adaptations within species are often governed by several interacting genes scattered throughout the genome. Single-locus models of selection cannot explain the maintenance of such complex variation because recombination separates co-adapted alleles. Here we report a previously unrecognized type of intraspecific multi-locus genetic variation that has been maintained over a vast period. The galactose (GAL) utilization gene network of Saccharomyces kudriavzevii, a relative of brewer's yeast, exists in two distinct states: a functional gene network in Portuguese strains and, in Japanese strains, a non-functional gene network of allelic pseudogenes. Genome sequencing of all available S. kudriavzevii strains revealed that none of the functional GAL genes were acquired from other species. Rather, these polymorphisms have been maintained for nearly the entire history of the species, despite more recent gene flow genome-wide. Experimental evidence suggests that inactivation of the GAL3 and GAL80 regulatory genes facilitated the origin and long-term maintenance of the two gene network states. This striking example of a balanced unlinked gene network polymorphism introduces a remarkable type of intraspecific variation that may be widespread.

142 citations


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Performance
Metrics
No. of papers in the topic in previous years
YearPapers
2023120
2022250
2021123
2020160
2019119
2018127