Deepti Pradhan scite author profile

The Lyme disease agent Borrelia burgdorferi naturally persists in a cycle that primarily involves ticks and mammals. We have now identified a tick receptor (TROSPA) that is required for spirochetal colonization of Ixodes scapularis. B. burgdorferi outer surface protein A, which is abundantly expressed on spirochetes within the arthropod and essential for pathogen adherence to the vector, specifically bound to TROSPA. TROSPA mRNA levels in ticks increased following spirochete infestation and decreased in response to engorgement, events that are temporally linked to B. burgdorferi entry into and egress from the vector. The blockade of TROSPA by TROSPA antisera or by the repression of TROSPA expression via RNA interference reduced B. burgdorferi adherence to the I. scapularis gut in vivo, thereby preventing efficient colonization of the vector and subsequently reducing pathogen transmission to the mammalian host. Identification of an I. scapularis receptor for B. burgdorferi is the first step toward elucidating arthropod ligands that are required for survival of spirochetes in nature.

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Rad9 Phosphorylation Sites Couple Rad53 to the Saccharomyces cerevisiae DNA Damage Checkpoint

Schwartz

et al. 2002

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Rad9 is required for the MEC1/TEL1-dependent activation of Saccharomyces cerevisiae DNA damage checkpoint pathways mediated by Rad53 and Chk1. DNA damage induces Rad9 phosphorylation, and Rad53 specifically associates with phosphorylated Rad9. We report here that multiple Mec1/Tel1 consensus [S/T]Q sites within Rad9 are phosphorylated in response to DNA damage. These Rad9 phosphorylation sites are selectively required for activation of the Rad53 branch of the checkpoint pathway. Consistent with the in vivo function in recruiting Rad53, Rad9 phosphopeptides are bound by Rad53 forkhead-associated (FHA) domains in vitro. These data suggest that functionally independent domains within Rad9 regulate Rad53 and Chk1, and support the model that FHA domain-mediated recognition of Rad9 phosphopeptides couples Rad53 to the DNA damage checkpoint pathway.

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Canine X‐linked muscular dystrophy as an animal model of Duchenne muscular dystrophy: A review

et al. 1992

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Canine X-linked muscular dystrophy is a spontaneously occurring, progressive, degenerative myopathy of dogs that is clinically and pathologically similar to Duchenne muscular dystrophy in man. The molecular basis for the disease has been shown to be a lack of dystrophin, the protein product of the Duchenne muscular dystrophy gene. Breeding colonies of dystrophic dogs have been established. This report reviews the findings of genetic, clinical, pathologic, molecular biologic, and immunocytochemical studies of the canine model, and compares the features of the canine disease to those of Duchenne dystrophy in man.

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Regulation of survivin function by Hsp90

Fortugno

Beltrami

Plescia

et al. 2003

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

302

230

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Pathways controlling cell proliferation and cell survival require flexible adaptation to environmental stresses. These mechanisms are frequently exploited in cancer, allowing tumor cells to thrive in unfavorable milieus. Here, we show that Hsp90, a molecular chaperone that is central to the cellular stress response, associates with survivin, an apoptosis inhibitor and essential regulator of mitosis. This interaction involves the ATPase domain of Hsp90 and the survivin baculovirus inhibitor of apoptosis repeat. Global suppression of the Hsp90 chaperone function or targeted Abmediated disruption of the survivin-Hsp90 complex results in proteasomal degradation of survivin, mitochondrial-dependent apoptosis, and cell cycle arrest with mitotic defects. These data link the cellular stress response to an antiapoptotic and mitotic checkpoint maintained by survivin. Targeting the survivin-Hsp90 complex may provide a rational approach for cancer therapy.

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Deepti Pradhan

TROSPA, an Ixodes scapularis Receptor for Borrelia burgdorferi

Rad9 Phosphorylation Sites Couple Rad53 to the Saccharomyces cerevisiae DNA Damage Checkpoint

Canine X‐linked muscular dystrophy as an animal model of Duchenne muscular dystrophy: A review

Regulation of survivin function by Hsp90

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