Search Results - "Jacobs, Andrew K."

Down-regulation of the glucan synthase-like 6 gene (HvGsl6) in barley leads to decreased callose accumulation and increased cell wall penetration by Blumeria graminis f. sp. hordei by Chowdhury, Jamil, Schober, Michael S., Shirley, Neil J., Singh, Rohan R., Jacobs, Andrew K., Douchkov, Dimitar, Schweizer, Patrick, Fincher, Geoffrey B., Burton, Rachel A., Little, Alan

“…The recent characterization of the polysaccharide composition of papillae deposited at the barley cell wall during infection by the powdery mildew pathogen,…”
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An Arabidopsis Callose Synthase, GSL5, Is Required for Wound and Papillary Callose Formation by Jacobs, Andrew K., Lipka, Volker, Burton, Rachel A., Panstruga, Ralph, Strizhov, Nicolai, Schulze-Lefert, Paul, Fincher, Geoffrey B.

“…Arabidopsis was transformed with double-stranded RNA interference (dsRNAi) constructs designed to silence three putative callose synthase genes: GLUCAN…”
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Exclusion of Na⁺ via Sodium ATPase (PpENA1) Ensures Normal Growth of Physcomitrella patens under Moderate Salt Stress by Lunde, Christina, Drew, Damian P, Jacobs, Andrew K, Tester, Mark

“…The bryophyte Physcomitrella patens is unlike any other plant identified to date in that it possesses a gene that encodes an ENA-type Na⁺-ATPase. To complement…”
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Hv-CBF2A overexpression in barley accelerates COR gene transcript accumulation and acquisition of freezing tolerance during cold acclimation by Jeknić, Zoran, Pillman, Katherine A, Dhillon, Taniya, Skinner, Jeffrey S, Veisz, Ottó, Cuesta-Marcos, Alfonso, Hayes, Patrick M, Jacobs, Andrew K, Chen, Tony H. H, Stockinger, Eric J

“…C-Repeat Binding Factors (CBFs) are DNA-binding transcriptional activators of gene pathways imparting freezing tolerance. Poaceae contain three CBF…”
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Structural and functional analyses of PpENA1 provide insights into cation binding by type IID P-type ATPases in lower plants and fungi by Drew, Damian P., Hrmova, Maria, Lunde, Christina, Jacobs, Andrew K., Tester, Mark, Fincher, Geoffrey B.

“…PpENA1 is a membrane-spanning transporter from the moss Physcomitrella patens, and is the first type IID P-type ATPase to be reported in the plant kingdom. In…”
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Analysis of the (1,3)-β- d-glucan synthase gene family of barley by Schober, Michael S., Burton, Rachel A., Shirley, Neil J., Jacobs, Andrew K., Fincher, Geoffrey B.

“…Callose is synthesised in many plant tissues during growth and development. Callose deposition also represents an important response to pathogen attack,…”
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Exclusion of Na+ via Sodium ATPase (PpENA1) Ensures Normal Growth of Physcomitrella patens under Moderate Salt Stress1 by Lunde, Christina, Drew, Damian P, Jacobs, Andrew K, Tester, Mark

“…The bryophyte Physcomitrella patens is unlike any other plant identified to date in that it possesses a gene that encodes an ENA-type Na(+)-ATPase. To…”
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Exclusion of Na super(+) via Sodium ATPase (PpENA1) Ensures Normal Growth of Physcomitrella patens under Moderate Salt Stress by Lunde, Christina, Drew, Damian P, Jacobs, Andrew K, Tester, Mark

“…The bryophyte Physcomitrella patens is unlike any other plant identified to date in that it possesses a gene that encodes an ENA-type Na super(+)-ATPase. To…”
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Analysis of the (1,3)-b-d-glucan synthase gene family of barley by Schober, Michael S, Burton, Rachel A, Shirley, Neil J, Jacobs, Andrew K, Fincher, Geoffrey B

“…Callose consists mostly of (1,3)-b-d-glucan and is synthesised in many plant tissues during growth and development, where it is believed to play a fundamental…”
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A class IV chitinase is highly expressed in grape berries during ripening by Robinson, S.P, Jacobs, A.K, Dry, I.B

“…Chitinase activity increased markedly at the onset of ripening in grape (Vitis vinifera L.) berries and continued to increase throughout the sugar accumulation…”
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Induction of somatic intrachromosomal recombination inversion events by cyclophosphamide in a transgenic mouse model by Sykes, P J, Hooker, A M, Harrington, C S, Jacobs, A K, Kingsbury, L, Morley, A A

“…Somatic intrachromosomal recombination (SICR) can result in chromosomal inversion and deletion, mechanisms which are important in carcinogenesis. We have…”
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