Jody R. Schwartz scite author profile

The genome of the flowering plant Arabidopsis thaliana has five chromosomes. Here we report the sequence of the largest, chromosome 1, in two contigs of around 14.2 and 14.6 megabases. The contigs extend from the telomeres to the centromeric borders, regions rich in transposons, retrotransposons and repetitive elements such as the 180-base-pair repeat. The chromosome represents 25% of the genome and contains about 6,850 open reading frames, 236 transfer RNAs (tRNAs) and 12 small nuclear RNAs. There are two clusters of tRNA genes at different places on the chromosome. One consists of 27 tRNA(Pro) genes and the other contains 27 tandem repeats of tRNA(Tyr)-tRNA(Tyr)-tRNA(Ser) genes. Chromosome 1 contains about 300 gene families with clustered duplications. There are also many repeat elements, representing 8% of the sequence.

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Latent Viruses and Mutated Oncogenes: No Evidence for Pathogenicity

Duesberg¹,

Schwartz²

1992

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Human and Mouse α-Synuclein Genes: Comparative Genomic Sequence Analysis and Identification of a Novel Gene Regulatory Element

Touchman¹,

Dehejia²,

Chiba‐Falek³

et al. 2001

Genome Res.

117

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The human alpha-synuclein gene (SNCA) encodes a presynaptic nerve terminal protein that was originally identified as a precursor of the non-beta-amyloid component of Alzheimer's disease plaques. More recently, mutations in SNCA have been identified in some cases of familial Parkinson's disease, presenting numerous new areas of investigation for this important disease. Molecular studies would benefit from detailed information about the long-range sequence context of SNCA. To that end, we have established the complete genomic sequence of the chromosomal regions containing the human and mouse alpha-synuclein genes, with the objective of using the resulting sequence information to identify conserved regions of biological importance through comparative sequence analysis. These efforts have yielded approximately 146 and approximately 119 kb of high-accuracy human and mouse genomic sequence, respectively, revealing the precise genetic architecture of the alpha-synuclein gene in both species. A simple repeat element upstream of SNCA/Snca has been identified and shown to be necessary for normal expression in transient transfection assays using a luciferase reporter construct. Together, these studies provide valuable data that should facilitate more detailed analysis of this medically important gene.

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DNA recombination is sufficient for retroviral transduction.

Schwartz

Duesberg

1995

Proc. Natl. Acad. Sci. U.S.A.

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Oncogenic retroviruses carry coding sequences that are transduced from cellular protooncogenes. Natural transduction involves two nonhomologous recombinations and is thus extremely rare. Since transduction has never been reproduced experimentall, its mechanism has been studied in terms of twoehypotheses: (i) the DNA model, which postulates two DNA recombinations, and (ii) the RNA model, which postulates a 5' DNA recombination and a 3' RNA recombination occurring during reverse transcription of viral and protooncogene RNA. Here we use two viral DNA constructs to test the prediction ofthe DNA model that the 3' DNA recombination is achieved by conventional integration of a retroviral DNA 3' of the chromosomal protooncogene coding region. For the DNA model to be viable, such recombinant viruses must be infectious without the purportedly essential polypurine tract (ppt) that precedes the 3' long terminal repeat (LTR) of all retroviruses. Our constructs consist of a ras coding region from Harvey sarcoma virus which is naturally linked at the 5' end to a retroviral LTR and artificially linked at the 3' end either directly (construct NdN) or by a cellular sequence (construct SU) to the 5' LTR of a retrovirus. Both constructs lack the ppt, and the LTR of NdN even lacks 30 nucleotides at the 5' end. Both constructs proved to be infectious, producing viruses at titers of 105 focus-forming units per ml. Sequence analysis proved that both viruses were colinear with input DNAs and that NdN virus lacked a ppt and the 5' 30 nucleotides of the LTR. The results indicate that DNA recombination is sufficient for retroviral transduction and that neither the ppt nor the complete LTR is essential for retrovirus replication. DNA recombination explains the following observations by others that cannot be reconciled with the RNA model: (i) experimental transduction is independent of the packaging efficiency of viral RNA, and (ii) experimental transduction may invert sequences with respect to others, as expected for DNA recombination during transfection.All oncogenic retroviruses carry an internal coding sequence transduced from one of a group of cellular genes, termed protooncogenes. Natural transduction by means of illegitimate recombination between viral and cellular genomes cannot be experimentally reproduced, because it is extremely rare. Only about 50 cases have been observed in the long history of retrovirus research (1). There are, however, experimental models of transduction, termed the DNA model and the RNA model, derived from two competing hypotheses for how retroviruses transduce these coding sequences from cellular protooncogenes.Both models assume that the 5' virus/protooncogene recombination occurs at the DNA level-i.e., between cellular DNA and retroviral DNA, also termed proviral DNA (which is transcribed from viral RNA). One interpretation of this model predicts that the 5' recombination with a protooncogene results from random integration of a DNA provirus with a single virus long terminal repeat (LTR; Fig. 1). A...

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Jody R. Schwartz

VISTA : visualizing global DNA sequence alignments of arbitrary length

Sequence and analysis of chromosome 1 of the plant Arabidopsis thaliana

Latent Viruses and Mutated Oncogenes: No Evidence for Pathogenicity

Human and Mouse α-Synuclein Genes: Comparative Genomic Sequence Analysis and Identification of a Novel Gene Regulatory Element

DNA recombination is sufficient for retroviral transduction.

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