Proteomic analysis of secreted saliva from Russian wheat aphid (Diuraphis noxia Kurd.) biotypes that differ in virulence to wheat

Journal of Proteomics
Scott J NicholsonGary J Puterka

Abstract

Diuraphis noxia, Russian Wheat Aphid (RWA), biotypes are classified by their differential virulence to wheat varieties containing resistance genes. RWA salivary proteins, unlike those of most aphid species, cause foliar damage and physiological alterations in plants. A comparative proteomic analysis of secreted saliva from four differentially virulent RWA biotypes identified thirty-four individual proteins. The five major proteins were glucose dehydrogenase, lipophorin, chitinase, CiV16.8g1-like, and lava lamp. Fourteen proteins quantitatively varied among biotypes; trehalase, β-N-acetylglucosaminidase (chitinase), two separate glucose dehydrogenases, calreticulin, aminopeptidase, acetylglucosaminyltransferase, hydroxymethylglutaryl-CoA lyase, acyltransferase, ficolin-3, lava lamp, retinaldehyde-binding protein, and two proteins of unknown function. Fifty-four percent of spectral counts were associated with glucose dehydrogenase, which is thought to detoxify plant defensive compounds. One-dimensional electrophoresis detected nine protein bands from 9 to 60 kDa that quantitatively differed. Two-dimensional electrophoresis identified six major gel zones with quantitative and qualitative variance in proteins. Our findings reveal t...Continue Reading

References

Jul 1, 1968·The Biochemical Journal·D H WilliamsonH A Krebs
May 15, 1996·Experientia·A BeckerG Wegener
May 18, 1999·Fungal Genetics and Biology : FG & B·S ZeilingerC P Kubicek
Aug 31, 1999·Archives of Insect Biochemistry and Physiology·H EichenseerG W Felton
Dec 28, 1999·Glycoconjugate Journal·F AltmannL März
May 16, 2000·Plant Molecular Biology·C SchobertW J Lucas
May 20, 2000·Journal of Insect Physiology·A Cherqui, W F Tjallingii
Jul 13, 2000·Journal of Molecular Biology·M B ChampagneD P Kiehart
Oct 19, 2000·Journal of Plant Growth Regulation·L L Walling
Apr 2, 2002·Planta·Ewa MadeyJohn E Thompson
Aug 16, 2002·Current Opinion in Plant Biology·Ute Wittstock, Jonathan Gershenzon
Aug 27, 2002·The Journal of Biological Chemistry·Kenji KontaniToshiaki Katada
Oct 23, 2002·Molecular Pharmacology·Ralf Peter MeyerUrs A Meyer
Nov 8, 2002·The Journal of Immunology : Official Journal of the American Association of Immunologists·Sandor CsehNicole M Thielens
Jan 17, 2003·Plant Physiology·Sylvie DinantGary A Thompson
May 6, 2003·Developmental Biology·Pamela L BradleyDeborah J Andrew
May 28, 2003·Biochemistry·Candace PanagabkoJeffrey Atkinson
Aug 9, 2003·Molecular Plant-microbe Interactions : MPMI·Oscar Martinez de IlarduyaIsgouhi Kaloshian
Sep 25, 2003·Annual Review of Plant Biology·Mary A Schuler, Daniele Werck-Reichhart
Nov 25, 2003·Analytical Chemistry·Alexey I NesvizhskiiRuedi Aebersold
Oct 27, 2004·Biochemical and Biophysical Research Communications·Shahid KarimJohn R Sauer
Jan 22, 2005·Archives of Insect Biochemistry and Physiology·Richard O MusserGary W Felton
May 24, 2005·Nature Cell Biology·Ophelia PapoulasJohn C Sisson
Jun 28, 2005·Molecular & Cellular Proteomics : MCP·William M OldNatalie G Ahn
Nov 5, 2005·Journal of Muscle Research and Cell Motility·Sunita R Patel, Judith D Saide
Jan 3, 2006·Developmental and Comparative Immunology·Gang MaOtto Schmidt
Jan 25, 2006·Current Biology : CB·Maria Grazia GiansantiMaurizio Gatti
Feb 4, 2006·Critical Reviews in Biochemistry and Molecular Biology·Scott E PhillipsEric A Gaucher
Oct 28, 2006·Journal of Economic Entomology·John D BurdFrank B Peairs
Jun 8, 2007·Proceedings of the National Academy of Sciences of the United States of America·Torsten WillAart J E van Bel
Jul 27, 2007·Current Opinion in Plant Biology·Fiona L Goggin

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Citations

Oct 6, 2012·Molecular Plant-microbe Interactions : MPMI·Patricia A Rodriguez, Jorunn I B Bos
Oct 6, 2012·Molecular Plant-microbe Interactions : MPMI·Marco Pitino, Saskia A Hogenhout
Apr 17, 2014·PloS One·Candice A Stafford-BanksDiane E Ullman
Mar 5, 2014·Journal of Experimental Botany·Michael KnoblauchWinfried S Peters
Nov 28, 2013·Bulletin of Entomological Research·A SharmaM J Fletcher
Mar 25, 2014·Molecular Plant-microbe Interactions : MPMI·Dezi A ElzingaGeorg Jander
Aug 2, 2014·Journal of Chemical Ecology·John S RamseyGeorg Jander
Jun 14, 2014·Proceedings of the National Academy of Sciences of the United States of America·Ritu ChaudharyIsgouhi Kaloshian
Dec 27, 2015·Journal of Insect Physiology·Antoine GuiguetDavid Giron
Jan 3, 2014·Insect Molecular Biology·S VandermotenF Francis
Oct 16, 2015·Journal of Integrative Plant Biology·Isgouhi Kaloshian, Linda L Walling
Jun 6, 2015·BMC Genomics·Scott J NicholsonGary J Puterka
Oct 16, 2015·Journal of Economic Entomology·Crystal RammTiffany Heng-Moss
Jul 16, 2013·Current Opinion in Plant Biology·Dezi A Elzinga, Georg Jander
Feb 28, 2015·Journal of Proteome Research·Ritu ChaudharyIsgouhi Kaloshian
Dec 3, 2014·Journal of Insect Physiology·Yukiko MatsumotoMakoto Hattori
Dec 19, 2014·Frontiers in Plant Science·Maëlle JaouannetJorunn I B Bos
Jan 30, 2016·The Journal of General Virology·Marcella TeixeiraIsgouhi Kaloshian
Nov 11, 2016·Molecular Plant-microbe Interactions : MPMI·Sam T MugfordSaskia A Hogenhout
Oct 16, 2015·Journal of Economic Entomology·Michael S Crossley, David B Hogg
Jan 26, 2017·Insect Biochemistry and Molecular Biology·Jacob A WengerAndy Michel
Sep 7, 2013·Molecular Plant-microbe Interactions : MPMI·Patricia A RodriguezJorunn I B Bos
May 5, 2017·PloS One·Nicholas ChristodoulidesNate B Hardy
Oct 6, 2016·Molecular & Cellular Proteomics : MCP·Wim JonckheereThomas Van Leeuwen
Nov 23, 2017·Scientific Reports·Yong ZhangJulian Chen
Oct 26, 2018·The New Phytologist·Ritu ChaudharyIsgouhi Kaloshian

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