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Items: 1 to 20 of 88

1.

Hydroxyproline-rich glycopeptide signals in potato elicit signalling associated with defense against insects and pathogens.

Bhattacharya R, Koramutla MK, Negi M, Pearce G, Ryan CA.

Plant Sci. 2013 Jun;207:88-97. doi: 10.1016/j.plantsci.2013.03.002. Epub 2013 Mar 15.

PMID:
23602103
2.

Three hydroxyproline-rich glycopeptides derived from a single petunia polyprotein precursor activate defensin I, a pathogen defense response gene.

Pearce G, Siems WF, Bhattacharya R, Chen YC, Ryan CA.

J Biol Chem. 2007 Jun 15;282(24):17777-84. Epub 2007 Apr 20.

4.

Systemin, hydroxyproline-rich systemin and the induction of protease inhibitors.

Pearce G.

Curr Protein Pept Sci. 2011 Aug;12(5):399-408. Review.

PMID:
21418016
5.

Systemic wound signaling in tomato leaves is cooperatively regulated by systemin and hydroxyproline-rich glycopeptide signals.

Narváez-Vásquez J, Orozco-Cárdenas ML, Ryan CA.

Plant Mol Biol. 2007 Dec;65(6):711-8. Epub 2007 Sep 25.

PMID:
17899396
6.

Six peptide wound signals derived from a single precursor protein in Ipomoea batatas leaves activate the expression of the defense gene sporamin.

Chen YC, Siems WF, Pearce G, Ryan CA.

J Biol Chem. 2008 Apr 25;283(17):11469-76. doi: 10.1074/jbc.M709002200. Epub 2008 Feb 25.

7.

Isolation and characterization of hydroxyproline-rich glycopeptide signals in black nightshade leaves.

Pearce G, Bhattacharya R, Chen YC, Barona G, Yamaguchi Y, Ryan CA.

Plant Physiol. 2009 Jul;150(3):1422-33. doi: 10.1104/pp.109.138669. Epub 2009 Apr 29.

8.

Peptide signals for plant defense display a more universal role.

Pearce G, Bhattacharya R, Chen YC.

Plant Signal Behav. 2008 Dec;3(12):1091-2.

9.
10.

Genotype-dependent expression of specific members of potato protease inhibitor gene families in different tissues and in response to wounding and nematode infection.

Turrà D, Bellin D, Lorito M, Gebhardt C.

J Plant Physiol. 2009 May 1;166(7):762-74. doi: 10.1016/j.jplph.2008.10.005. Epub 2008 Dec 17.

PMID:
19095329
11.
12.

StCDPK5 confers resistance to late blight pathogen but increases susceptibility to early blight pathogen in potato via reactive oxygen species burst.

Kobayashi M, Yoshioka M, Asai S, Nomura H, Kuchimura K, Mori H, Doke N, Yoshioka H.

New Phytol. 2012 Oct;196(1):223-37. doi: 10.1111/j.1469-8137.2012.04226.x. Epub 2012 Jul 11.

13.

Coil-dependent signaling pathway is not required for Mi-1-mediated potato aphid resistance.

Bhattarai KK, Xie QG, Pourshalimi D, Younglove T, Kaloshian I.

Mol Plant Microbe Interact. 2007 Mar;20(3):276-82.

14.

Snakin-1, a peptide from potato that is active against plant pathogens.

Segura A, Moreno M, Madueño F, Molina A, García-Olmedo F.

Mol Plant Microbe Interact. 1999 Jan;12(1):16-23.

15.

Induction of plant gp91 phox homolog by fungal cell wall, arachidonic acid, and salicylic acid in potato.

Yoshioka H, Sugie K, Park HJ, Maeda H, Tsuda N, Kawakita K, Doke N.

Mol Plant Microbe Interact. 2001 Jun;14(6):725-36.

16.

Polypeptide signaling for plant defensive genes exhibits analogies to defense signaling in animals.

Bergey DR, Howe GA, Ryan CA.

Proc Natl Acad Sci U S A. 1996 Oct 29;93(22):12053-8. Review.

17.

Systemin--a polypeptide defense signal in plants.

Schaller A, Ryan CA.

Bioessays. 1996 Jan;18(1):27-33. Review.

PMID:
8593160
18.

Genome-wide identification and functional analyses of calmodulin genes in Solanaceous species.

Zhao Y, Liu W, Xu YP, Cao JY, Braam J, Cai XZ.

BMC Plant Biol. 2013 Apr 27;13:70. doi: 10.1186/1471-2229-13-70.

19.

The potato StLTPa7 gene displays a complex Ca-associated pattern of expression during the early stage of potato-Ralstonia solanacearum interaction.

Gao G, Jin LP, Xie KY, Qu DY.

Mol Plant Pathol. 2009 Jan;10(1):15-27. doi: 10.1111/j.1364-3703.2008.00508.x.

PMID:
19161349
20.

A pathogen-responsive cDNA from potato encodes a protein with homology to a phosphate starvation-induced phosphatase.

Petters J, Göbel C, Scheel D, Rosahl S.

Plant Cell Physiol. 2002 Sep;43(9):1049-53.

PMID:
12354923

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