Alkharouf N W, Klink V P, Chouikha I B, Beard H S,MacDonald M H, Meyer S, Knap H T, Khan R, MatthewsB F. 2006. Timecourse microarray analyses reveal globalchanges in gene expression of susceptible Glycine max(soybean) roots during infection by Heterodera glycines(soybean cyst nematode). Planta, 224, 838-852
Arelli A P, Wilcox J A, Myers Jr O, Gibson P T. 1997. Soybeangermplasm resistant to races 1 and 2 of Heteroderaglycines. Crop Science, 37, 1367-1369
Bustin S A. 2002. Quantification of mRNA using realtimereverse transcription PCR (RT-PCR): Trends andproblems. Journal of Molecular Endocrinology, 29, 23-29
Cai D, Kleine M, Kifle S, Harloff H J, Sandal N N, MarckerK A, Klein-Lankhorst R M, Salentijn E M, Lange W,Stiekema W J, Wyss U, Grundler F M, Jung C. 1997.Positional cloning of a gene for nematode resistance insugar beet. Science, 275, 832-834
Caldwell B E, Brim C A, Ross J P. 1960. Inheritance ofresistance to soybean cyst nematode, Heterodera glycines.Agronomy Journal, 52, 635-636
Cook D E, Lee T G, Guo X, Melito S, Wang K, Bayless A M,Wang J, Hughes T J, Willis D K, Clemente T E, Diers BW, Jiang J, Hudson M E, Bent A F. 2012. Copy numbervariation of multiple genes at Rhg1 mediates nematoderesistance in soybean. Science, 338, 1206-1209
Du Z, Zhou X, Ling Y, Zhang Z, Su Z. 2010. AgriGO: A GOanalysis toolkit for the agricultural community. NucleicAcids Research, 38, W64-W70.
Duan Y, Zhou B, Chen L, Wu H. 2008. Representative analysis of the estabolishment of a core collection focused on race3 of soybean cyst nematode. Soybean Science, 27, 366-372 (in Chinese)
Endo B Y. 1965. Histological responses of resistantand susceptible soybean varieties, and backcrossprogeny to entry development of Heterodera glycines.Phytopathology, 55, 375-381
Hwang C F, Bhakta A V, Truesdell G M, Pudlo W M,Williamson V M. 2000. Evidence for a role of the Nterminus and leucine-rich repeat region of the Mi geneproduct in regulation of localized cell death. The PlantCell, 12, 1319-1329
Ithal N, Recknor J, Nettleton D, Hearne L, Maier T, Baum TJ, Mitchum M G. 2007a. Parallel genome-wide expressionprofiling of host and pathogen during soybean cystnematode infection of soybean. Molecular Plant-MicrobeInteractions, 20, 293-305
Ithal N, Recknor J, Nettleton D, Maier T, Baum T J, MitchumM G. 2007b. Developmental transcript profiling of cystnematode feeding cells in soybean roots. Molecular Plant-Microbe Interactions, 20, 510-525
Jones J T, Furlanetto C, Phillips M S. 2007. The role offlavonoids produced in response to cyst nematode infectionof Arabidopsis thaliana. Nematology, 9, 671-677
Kim Y H, Riggs R D, Kim K S. 1987. Structural changesassociated with resistance of soybean to Heteroderaglycines. The Journal of Nematology, 19, 177-187
Klink V P, Hosseini P, MacDonald M H, Alkharouf N W,Matthews B F. 2009a. Population-specific gene expressionin the plant pathogenic nematode Heterodera glycinesexists prior to infection and during the onset of a resistantor susceptible reaction in the roots of the Glycine maxgenotype Peking. BMC Genomics, 10, 111.
Klink V P, Hosseini P, Matsye P, Alkharouf N W, MatthewsB F. 2009b. A gene expression analysis of syncytia lasermicrodissected from the roots of the Glycine max (soybean)genotype PI 548402 (Peking) undergoing a resistantreaction after infection by Heterodera glycines (soybeancyst nematode). Plant Molecular Biology, 71, 525-567
Klink V P, Overall C C, Alkharouf N W, MacDonald MH, Matthews B F. 2007a. A time-course comparativemicroarray analysis of an incompatible and compatibleresponse by Glycine max (soybean) to Heterodera glycines(soybean cyst nematode) infection. Planta, 226, 1423-1447
Klink V P, Overall C C, Alkharouf N W, MacDonald M H,Matthews B F. 2007b. Laser capture microdissection(LCM) and comparative microarray expression analysis ofsyncytial cells isolated from incompatible and compatiblesoybean (Glycine max) roots infected by the soybean cystnematode (Heterodera glycines). Planta, 226, 1389-1409
Klink V P, Overall C C, Alkharouf N W, Macdonald M H,Matthews B F. 2010. Microarray detectioncall methodologyas a means to identify and compare transcripts expressedwithin syncytial cells from soybean (Glycine max) rootsundergoing resistant and susceptible reactions to the soybean cyst nematode (Heterodera glycines). Journal ofBiomedicine and Biotechnology, 2010, 491217.
Koenning S R, Wrather J A. 2010. Suppression of soybeanyield potential in the continental United States fromplant diseases estimated from 2006 to 2009. Plant HealthProgress. http://dx.doi.org/10.1094/PHP-2010-1122-01-RS
Li Y, Qi X, Chang R, Qiu L. 2011. Evaluation and utilizationof soybean germplasm for resistance to cyst nematode inChina. In: Sudaric A ed., Soybean-Molecular Aspects ofBreeding. InTech, Croatia. pp. 373-396
Li Y, Wang Z, Jiao G, Chang R. 1991. Studies on resistanceof soybean germplasm resources to race 4 of soybeancyst nematode. Scientia Agricultura Sinica, 24, 64-69.(in Chinese)
Liu S, Kandoth P K, Warren S D, Yeckel G, Heinz R, Alden J,Yang C, Jamai A, El-Mellouki T, Juvale P S, Hill J, BaumT J, Cianzio S, Whitham S A, Korkin D, Mitchum M G,Meksem K. 2012. A soybean cyst nematode resistancegene points to a new mechanism of plant resistance topathogens. Nature, 492, 256-260
Liu Y, Dammann C, Bhattacharyya M K. 2001. The matrixmetalloproteinase gene GmMMP2 is activated in responseto pathogenic infections in soybean. Plant Physiology,127, 1788-1797
Maleck K, Levine A, Eulgem T, Morgan A, Schmid J, LawtonK A, Dangl J L, Dietrich R A. 2000. The transcriptome ofArabidopsis thaliana during systemic acquired resistance.Nature Genetics, 26, 403-410
Matson A L, Williams L F. 1965. Evidence of a fourth gene forresistance to soybean cyst nematode. Crop Science, 5, 477.Matthews B F, Beard H, MacDonald M H, Kabir S, Youssef RM, Hosseini P, Brewer E. 2013. Engineered resistance andhypersusceptibility through functional metabolic studies of100 genes in soybean to its major pathogen, the soybeancyst nematode. Planta, 237, 1337-1357
Mazarei M, Liu W, AI-Ahmad H, Arelli P R, Pantalone V R,Stewart Jr C N. 2011. Geneexpression profiling of resistantand susceptible soybean lines infected with soybean cystnematode. Theoretical and Applied Genetics, 123, 1193-1206
Ndamukong I, Abdallat A A, Thurow C, Fode B, ZanderM, Weigel R, Gatz C. 2007. SA-inducible Arabidopsisglutaredoxin interacts with TGA factors and suppressesJA-responsive PDF1.2 transcription. The Plant Journal,50, 128-139
Rao-Arelli A P, Anand S C, Wrather A J. 1992. Soybeanresistance to soybean cyst nematode race 3 is conditionedby an additional dominant gene. Crop Science, 32, 862-864
Schmitt D P, Shannon G. 1992. Differentiating soybeanresponses to Heterodera Glycines races. Crop Science,32, 275-277
Shen Q H, Saijo Y, Mauch S, Biskup C, Bieri S, Keller B,Seki H, Ulker B, Somssich I E, Schulze-Lefert P. 2007.Nuclear activity of MLA immune receptors links isolatespecificand basal disease-resistance responses. Science,315, 1098-1103
Wuyts N, Lognay G, Swennen R, de Waele D. 2006. Nematodeinfection and reproduction in transgenic and mutantArabidopsis and tobacco with an altered phenylpropanoidmetabolism. Journal of Experimental Botany, 57, 2825-2835
Yan Q, Chen P, Wang L. 1996. Mechanism of resistanceto race 4 of Heterodera Glycines in Chinese blacksoybeans.1. The effects of resistant varities on thepenetration and devolepment of Heterodera glycines. ActaPhytopathologica Sinica, 26, 317-323. (in Chinese)
Zander M, Chen S, Imkampe J, Thurow C, Gatz C. 2012.Repression of the Arabidopsis thaliana jasmonic acid/ethylene-induced defense pathway by TGA-interactingglutaredoxins depends on their C-terminal ALWL motif.Molecular Plant, 5, 831-840 |