Chris M. Farnet scite author profile

A highly efficient cell-free system for the integration of human immunodeficiency virus type 1 DNA is described. Linear viral DNA synthesis occurs in the cytoplasm of newly infected cells, reaching peak levels 4 hr after infection. The linear viral DNA molecules present in cytoplasmic extracts are capable of integrating into heterologous DNA targets in vitro. The viral DNA resides in a high molecular weight nucleoprotein structure that can be separated from the bulk of cellular protein and nucleic acid without a detectable decrease in the ability to integrate in vitro.

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The Calicheamicin Gene Cluster and Its Iterative Type I Enediyne PKS

Ahlert

Shepard

Lomovskaya

et al. 2002

Science

276

277

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The enediynes exemplify nature's ingenuity. We have cloned and characterized the biosynthetic locus coding for perhaps the most notorious member of the nonchromoprotein enediyne family, calicheamicin. This gene cluster contains an unusual polyketide synthase (PKS) that is demonstrated to be essential for enediyne biosynthesis. Comparison of the calicheamicin locus with the locus encoding the chromoprotein enediyne C-1027 reveals that the enediyne PKS is highly conserved among these distinct enediyne families. Contrary to previous hypotheses, this suggests that the chromoprotein and nonchromoprotein enediynes are generated by similar biosynthetic pathways.

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HIV-1 cDNA Integration: Requirement of HMG I(Y) Protein for Function of Preintegration Complexes In Vitro

Farnet

Bushman

1997

Cell

338

265

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We present data indicating that a host protein is important for function of HIV-1 preintegration complexes (PICs) in vitro. PICs partially purified from infected cells were subjected to gel filtration in 600 mM KCl, which removed a factor required for integration without fully disrupting PICs. Addition of an extract from uninfected cells restored activity. Fractionation of the complementing activity yielded HMG I(Y), a nonhistone chromosomal protein important for transcriptional control and chromosomal architecture. Complementing activity could be isolated from PICs, and activity could be depleted from such fractions with an antibody against HMG I(Y). Recombinant HMG I(Y) also complemented salt-stripped complexes. The finding that a host protein is required for integration by HIV PICs parallels findings in several well-studied transposition and site-specific recombination systems.

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A genomics-guided approach for discovering and expressing cryptic metabolic pathways

et al. 2003

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Genome analysis of actinomycetes has revealed the presence of numerous cryptic gene clusters encoding putative natural products. These loci remain dormant until appropriate chemical or physical signals induce their expression. Here we demonstrate the use of a high-throughput genome scanning method to detect and analyze gene clusters involved in natural-product biosynthesis. This method was applied to uncover biosynthetic pathways encoding enediyne antitumor antibiotics in a variety of actinomycetes. Comparative analysis of five biosynthetic loci representative of the major structural classes of enediynes reveals the presence of a conserved cassette of five genes that includes a novel family of polyketide synthase (PKS). The enediyne PKS (PKSE) is proposed to be involved in the formation of the highly reactive chromophore ring structure (or "warhead") found in all enediynes. Genome scanning analysis indicates that the enediyne warhead cassette is widely dispersed among actinomycetes. We show that selective growth conditions can induce the expression of these loci, suggesting that the range of enediyne natural products may be much greater than previously thought. This technology can be used to increase the scope and diversity of natural-product discovery.

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Chris M. Farnet

Integration of human immunodeficiency virus type 1 DNA in vitro.

The Calicheamicin Gene Cluster and Its Iterative Type I Enediyne PKS

HIV-1 cDNA Integration: Requirement of HMG I(Y) Protein for Function of Preintegration Complexes In Vitro

A genomics-guided approach for discovering and expressing cryptic metabolic pathways

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