Anthony O’Connell scite author profile

TASK-1 and -2 are members of the two-pore domain potassium (K(+)) channel family and are sensitive to changes in extracellular pH. The effects of mutating charged, extracellular-facing residues in TASK-1 and -2 were studied in Xenopusoocytes by two-electrode voltage clamp. Hydrogen ion block was independent of voltage with K(d) values of 149+/-17.9 nM [H(+)] ( n=6) and 5.76+/-1.23 nM [H(+)] ( n=7) for TASK-1 and -2, respectively. Compared to wild-type TASK-1, H72N, H98N, H98D and K210N displayed significant shifts in their K(d) values for hydrogen ion block ([H(+)]; 110+/-9.80 nM, 737+/-170 nM, 321+/-85.9 nM and 267+/-9.92 nM, respectively, n=6 each, P<0.05). Although significantly reducing its pH sensitivity, mutation of H98 in TASK-1 did not abolish pH sensitivity; this implies that H98 is not the only residue or domain involved in pH sensing of TASK-1. TASK-2 does not possess a histidine residue at the homologous position. However, the inclusion of such a residue failed to produce the expected increase in pH sensitivity; instead, a slight decrease was observed. Despite their structural homology and common sensitivity to pH, the TASK family of K(+) channels apparently has diverse pH-sensing mechanisms.

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Phosphorylation-regulated endoplasmic reticulum retention signal in the renal outer-medullary K ⁺ channel (ROMK)

O’Connell

Dong

et al. 2005

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

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The renal outer-medullary K ؉ channel (ROMK; Kir1.1) mediates K ؉ secretion in the renal mammalian nephron that is critical to both sodium and potassium homeostasis. The posttranscriptional expression of ROMK in the plasma membrane of cells is regulated by delivery of protein from endoplasmic reticulum (ER) to the cell surface and by retrieval by dynamin-dependent endocytic mechanisms in clathrin-coated pits. The S44 in the NH 2 terminus of ROMK1 can be phosphorylated by PKA and serum-and glucocorticoid-inducible kinase-1, and this process increases surface expression of functional channels. We present evidence that phosphorylation of S44 modulates channel expression by increasing its cell surface delivery consequent to suppression of a COOH-terminal ER retention signal. This phosphorylation switch of the ER retention signal could provide a pool of mature and properly folded channels for rapid delivery to the plasma membrane. The x-ray crystal structures of inward rectifier K ؉ channels have shown a close apposition of the NH 2 terminus with the distal COOH terminus of the adjacent subunit in the channel homotetramer, which is important to channel gating. Thus, NH 2-terminal phosphorylation modifying a COOH-terminal ER retention signal in ROMK1 could serve as a checkpoint for proper subunit folding critical to channel gating.trafficking ͉ dynamin ͉ brefeldin A

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Field performance of transgenic sugarcane produced using Agrobacterium and biolistics methods

Joyce

Hermann

O’Connell

et al. 2013

Plant Biotechnology Journal

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SummaryFuture genetic improvement of sugarcane depends, in part, on the ability to produce highyielding transgenic cultivars with improved traits such as herbicide and insect resistance. Here, transgenic sugarcane plants generated by different transformation methods were assessed for field performance over 3 years. Agrobacterium-mediated (Agro) transgenic events (35) were produced using four different Agrobacterium tumefaciens strains, while biolistic (Biol) transgenic events (48) were produced using either minimal linearized DNA (LDNA) transgene cassettes with 5′, 3′ or blunt ends or whole circular plasmid (PDNA) vectors containing the same transgenes. A combined analysis showed a reduction in growth and cane yield in Biol, Agro as well as untransformed tissue culture (TC) events, compared with the parent clone (PC) Q117 (no transformation or tissue culture) in the plant, first ratoon and second ratoon crops. However, when individual events were analysed separately, yields of some transgenic events from both Agro and Biol were comparable to PC, suggesting that either transformation method can produce commercially suitable clones. Interestingly, a greater percentage of Biol transformants were similar to PC for growth and yield than Agro clones. Crop ratoonability and sugar yield components (Brix%, Pol%, and commercial cane sugar (CCS)) were unaffected by transformation or tissue culture. Transgene expression remained stable over different crop cycles and increased with plant maturity. Transgene copy number did not influence transgene expression, and both transformation methods produced low transgene copy number events. No consistent pattern of genetic changes was detected in the test population using three DNA fingerprinting techniques.

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