Antonia Martin-Gallardo scite author profile

We have identified three new members of the olfactory receptor (OR) gene family within a large segment of DNA that is duplicated with high similarity near many human telomeres. This segment is present at 3q, 15q, and 19p in each of 45 unrelated humans sampled from various populations. Additional copies are present polymorphically at 11 other subtelomeric locations. The frequency with which the block is present at some locations varies among populations. While humans carry seven to 11 copies of the OR-containing block, it is located in chimpanzee and gorilla predominantly at a single site, which is not orthologous to any of the locations in the human genome. The observation that sequences flanking the OR-containing segment are duplicated on larger and different sets of chromosomes than the OR block itself demonstrates that the segment is part of a much larger, complex patchwork of subtelomeric duplications. The population analyses and structural results suggest the types of processes that have shaped these regions during evolution. From its sequence, one of the OR genes in this duplicated block appears to be potentially functional. Our findings raise the possibility that functional diversity in the OR family is generated in part through duplications and inter-chromosomal rearrangements of the DNA near human telomeres.

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TAHRE, a Novel Telomeric Retrotransposon from Drosophila melanogaster, Reveals the Origin of Drosophila Telomeres

Abad¹,

Pablos²,

Osoegawa³

et al. 2004

116

119

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Drosophila telomeres do not have typical telomerase repeats. Instead, two families of non-LTR retrotransposons, HeT-A and TART, maintain telomere length by occasional transposition to the chromosome ends. Despite the work on Drosophila telomeres, its evolutionary origin remains controversial. Herein we describe a novel telomere-specific retroelement that we name TAHRE (Telomere-Associated and HeT-A-Related Element). The structure of the three telomere-specific elements indicates a common ancestor. These results suggest that preexisting transposable elements were recruited to perform the cellular function of telomere maintenance. A recruitment similar to that of a retrotransposal reverse transcriptase has been suggested as the common origin of telomerases.

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Genomic Analysis of Drosophila melanogaster Telomeres: Full-length Copies of HeT-A and TART Elements at Telomeres

Abad¹,

Pablos²,

Osoegawa³

et al. 2004

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DNA Sequences in the Promoter Region of the NF1 Gene Are Highly Conserved between Human and Mouse

Hajra

Martin-Gallardo²,

Tarlé³

et al. 1994

Genomics

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The gene for type 1 neurofibromatosis (NF1) is most highly expressed in brain and spinal cord, although low levels of mRNA can be found in nearly all tissues. As a first step in investigating the regulation of NF1 gene expression, we have cloned and sequenced the promoter regions of the human and mouse NF1 genes and mapped the transcriptional start sites in both species. We report here that the 5' ends of the human and murine NF1 genes are highly conserved. While no discernable TATA or CCAAT box sequences are seen, transcription initiates at identical sites in both species, 484 nucleotides upstream of the ATG initiation codon in the human gene. The human and mouse NF1 genes share particularly high sequence homology (95%) between nucleotides -33 and +261 and contain several perfectly conserved transcription factor binding site motifs, including a cAMP response element, several AP2 consensus binding sites, and a serum response element. The high conservation of these sequences indicates that they are likely to be significant in the regulation of NF1 gene expression.

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Molecular cloning and partial sequencing of hepatitis A viral cDNA

Linemeyer¹,

Menke²,

Martin-Gallardo³

et al. 1985

J Virol

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Hepatitis A virus was purified from infected monkey kidney cell cultures, and the viral RNA was used to synthesize double-stranded cDNA. This cDNA was cloned either after insertion into a plasmid-primed synthesis system or after insertion into the PstI site of pBR322. The resulting clones were mapped by restriction endonuclease analysis and by cross hybridization of the viral inserts to generate a composite map which represented at least 97% of the viral genome, lacking ca. 220 bases from the 5' end of the genome. The clones were verified to be hepatitis A virus specific based on their positive hybridization to viral RNA and to total hepatitis A virus-infected cellular RNA from a heterologous marmoset host system. The nucleotide sequence of 3,054 base pairs of cDNA homologous to the 5' half of the viral genome was determined, and an open reading frame of 854 consecutive coding triplets was identified. In addition, sequences which encode the VP-1 and VP-3 viral structural proteins were located in the nucleotide sequence.

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