Hamid Rafi scite author profile

Hamid Rafi

3Publications

68Citation Statements Received

24Citation Statements Given

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Affiliations

Yale University, United States Department of Veterans Affairs, Advanced Neural Dynamics (United States)

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Phage Associated Bacteriocins Reveal a Novel Mechanism for Bacteriocin Diversification in Klebsiella

et al. 2005

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Ninety-six isolates of Klebsiella pneumoniae and K. oxytoca were recovered from wild mammals in Australia. 14.6% of these bacteria produce killing phenotypes that suggest the production of bacteriocin toxins. Cloning and sequencing of the gene clusters encoding two of these killing phenotypes revealed two instances of a bacteriocin associated with a bacteriophage gene, the first such genetic organization described. The newly identified klebicin C gene cluster was discovered in both K. pneumoniae and K. oxytoca. The newly identified klebicin D gene cluster was detected in K. oxytoca. Protein sequence comparisons and phylogenetic inference suggest that klebicin C is most closely related to the rRNase group of colicins (such as colicin E4), while klebicin D is most closely related to the tRNase group of colicins (such as colicin D). The klebicin C and D gene clusters have similar genetic and regulatory organizations. In both cases, an operon structure is inferred consisting of a phage-associated open reading frame and klebicin activity and associated immunity genes. This novel bacteriophage/bacteriocin organization may provide a novel mechanism for the generation of bacteriocin diversity in Klebsiella.

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KCNA10: a novel ion channel functionally related to both voltage-gated potassium and CNG cation channels

Lang

Lee

Liu

et al. 2000

American Journal of Physiology-Renal Physiology

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Our laboratory previously cloned a novel rabbit gene (Kcn1), expressed in kidney, heart, and aorta, and predicted to encode a protein with 58% amino acid identity with the K channel Shaker Kv1.3 (Yao X et al. Proc Natl Acad Sci USA 92: 11711-11715, 1995). Because Kcn1 did not express well (peak current in Xenopus laevis oocytes of 0.3 microA at +60 mV), the human homolog (KCNA10) was isolated, and its expression was optimized in oocytes. KCNA10 mediates voltage-gated K(+) currents that exhibit minimal steady-state inactivation. Ensemble currents of 5-10 microA at +40 mV were consistently recorded from injected oocytes. Channels are closed at the holding potential of -80 mV but are progressively activated by depolarizations more positive than -30 mV, with half-activation at +3.5 +/- 2.5 mV. The channel displays an unusual inhibitor profile because, in addition to being blocked by classical K channel blockers (barium tetraethylammonium and 4-aminopyridine), it is also sensitive to inhibitors of cyclic nucleotide-gated (CNG) cation channels (verapamil and pimozide). Tail-current analysis shows a reversal potential shift of 47 mV/decade change in K concentration, indicating a K-to-Na selectivity ratio of at least 15:1. The phorbol ester phorbol 12-myristate 13-acetate, an activator of protein kinase C, inhibited whole cell current by 42%. Analysis of single-channel currents reveals a conductance of approximately 11 pS. We conclude KCNA10 is a novel human voltage-gated K channel with features common to both K-selective and CNG cation channels. Given its distribution in renal blood vessels and heart, we speculate that KCNA10 may be involved in regulating the tone of renal vascular smooth muscle and may also participate in the cardiac action potential.

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Regulation of the voltage-gated K⁺ channel KCNA10 by KCNA4B, a novel β-subunit

Tian

Liu

et al. 2002

American Journal of Physiology-Renal Physiology

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Voltage-gated K+ (Kv) channels are heteromultimeric complexes consisting of pore-forming alpha-subunits and accessory beta-subunits. Several beta-subunits have been identified and shown to interact with specific alpha-subunits to modify their levels of expression or some of their kinetic properties. The aim of the present study was to isolate accessory proteins for KCNA10, a novel Kv channel alpha-subunit functionally related to Kv and cyclic nucleotide-gated cation channels. Because one distinguishing feature of KCNA10 is a putative cyclic nucleotide-binding domain located at the COOH terminus, the entire COOH-terminal region was used to probe a human cardiac cDNA library using the yeast two-hybrid system. Interacting clones were then rescreened in a functional assay by coinjection with KCNA10 in Xenopus oocytes. One of these clones (KCNA4B), when injected alone in oocytes, produced no detectable current. However, when coinjected with KCNA10, it increased KCNA10 current expression by nearly threefold. In addition, the current became more sensitive to activation by cAMP. KCNA4B can be coimmunoprecipitated with the COOH terminus of KCNA10 and full-length KCNA10. It encodes a soluble protein (141 aa) with no amino acid homology to known beta-subunits but with limited structural similarity to the NAD(P)H-dependent oxidoreductase superfamily. KCNA4B is located on chromosome 13 and spans approximately16 kb, and its coding region is made up of five exons. In conclusion, KCNA4B represents the first member of a new class of accessory proteins that modify the properties of Kv channels.

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Hamid Rafi

Phage Associated Bacteriocins Reveal a Novel Mechanism for Bacteriocin Diversification in Klebsiella

KCNA10: a novel ion channel functionally related to both voltage-gated potassium and CNG cation channels

Regulation of the voltage-gated K⁺ channel KCNA10 by KCNA4B, a novel β-subunit

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Hamid Rafi

Phage Associated Bacteriocins Reveal a Novel Mechanism for Bacteriocin Diversification in Klebsiella

KCNA10: a novel ion channel functionally related to both voltage-gated potassium and CNG cation channels

Regulation of the voltage-gated K+ channel KCNA10 by KCNA4B, a novel β-subunit

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Regulation of the voltage-gated K⁺ channel KCNA10 by KCNA4B, a novel β-subunit