PEA

Accession

IPR

Pedigree

Accession Citations

National Center for Biotechnology Information (on-line resource). National Institutes of Health. Number of accession(s) cited: 5
Andrade, M., M. Sato, & I. Uyeda. 2007. Two resistance modes to clover yellow vein virus in pea characterized by a green fluorescent protein-tagged virus. Phytopathology 97(5):544-550. Number of accession(s) cited: 25
Andrade, M., Y. Abe, K. S. Nakahara, & I. Uyeda. 2009. The cyv-2 resistance to Clover yellow vein virus in pea is controlled by the eukaryotic initiation factor 4E. J. Gen. Pl. Pathol. 75:241-249. DOI: 10.1007/s10327-009-0163-3. Number of accession(s) cited: 7
Aryamanesh, N., Y. Zeng, O. Byrne, D. C. Hardie, A. M. Al-Subhi, T. Khan, K. H. M. Siddique, & G. Yan. 2014. Identification of genome regions controlling cotyledon, pod wall/seed coat and pod wall resistance to pea weevil through QTL mapping. Theor. Appl. Genet. 127:489-497. Number of accession(s) cited: 1
Aubry, S., J. Mani, & S. Hortensteiner. 2008. Stay-green protein, defective in Mendel’s green cotyledon mutant, acts independent and upstream of pheophorbide a oxygenase in the chlorophyll catabolic pathway. Pl. Molec. Biol. 67:243-256. DOI: 10.1007/s11103-008-9314-8. Number of accession(s) cited: 1
Auld, D. L., R. L. Ditterline, G. A. Murray, & J. B. Swensen. 1983. Screening peas for winterhardiness under field and laboratory conditions. Crop Sci. (Madison) 23:85-88. DOI: 10.2135/cropsci1983.0011183X002300010024x. Number of accession(s) cited: 18
Bagget, J. R., K. Kasimor, & R. O. Hampton. 1994. OSU 663, OSU 668, and OSU 677 pea breeding lines resistant to pea seedborne mosaic virus. HortScience 29(4):337-338. Note: used as a source for PSbMV-P resistance in OSU 668 Number of accession(s) cited: 6
Bai, Fang & D. A. DeMason. 2006. Hormone Interactions and Regulation of Unifoliata, PsPK2, PsPIN1 an LE Gene Expression in Pea (Pisum sativum) Shoot Tips. Pl. Cell Physiol. 47(7): 935-948. Number of accession(s) cited: 1
Bandillo, N. B., T. Stefaniak, H. Worral, S. Jain, A. Kalil, M. Wunsch, J. Pasche, W. Franck, Chengci Chen, S. Forster, & K. McPhee. 2021. Registration of ‘ND Dawn’ large yellow pea. J. Pl. Registr. 15(1):053. DOI: 10.1002/plr2.20097. Number of accession(s) cited: 1
Barilli, E., J. C. Sillero, A. Moral, & D. Rubiales. 2009. Characterization of resistance response of pea (Pisum spp.) against rust (Uromyces pisi). Pl. Breed. Rev. 128:665-670. DOI: 10.1111/j.1439-0523.2008.01622.x. Number of accession(s) cited: 7
Barilli, E., J. C. Sillero, M. Fernández-Aparicio, & D. Rubiales. 2009. Identification of resistance to Uromyces pisi (Pers.) Wint. in Pisum spp. germplasm. Field Crops Res. 114:198-203. Number of accession(s) cited: 52
Becker, R., R. Manteuffel, D. Neumann, & G. Scholz. 1998. Excessive iron accumulation in the pea mutants dgl and brz: subcellular localization of iron and ferritin. Planta 207:217-223. Number of accession(s) cited: 2
Bogdanova, V. S., A. V. Mglinets, N. V. Shatskaya, O. E. Kosterin, V. I. Solovyev, & G. V. Vasiliev. 2018. Cryptic divergences in the genus Pisum L. (peas), as revealed by phylogenetic analysis of plastid genomes. Molec. Phylogenet. Evol. 129:280-290. DOI: 10.1016/j.ympev.2018.09.002. Number of accession(s) cited: 2
Byrne, O. M., D. C. Hardie, T. N. Khan, J. Speijers, & G. Yan. 2008. Genetic analysis of pod and seed resistance to pea weevil in a Pisum sativum P. fulvum interspecific cross. Austral. J. Agric. Res. 59: 854-862. Number of accession(s) cited: 1
Cary, E. E., W. A. Norvell, D. L. Grunes, R. M. Welch, & W. S. Reid. 1994. Iron and managanese accumulation by the brz pea mutant grown in soils. Agron. J. 86:938-941. Number of accession(s) cited: 1
Charlton, A. J., J. A. Donarski, M. Harrison, S. A. Jones, J. Godward, S. Oehlschlager, J. L. Arques, M. Ambrose, C. Chinoy, P. M. Mullineaux, & C. Domoney. 2008. Responses of the pea (Pisum sativum L.) leaf metabolome to drought stress assessed by nuclear magnetic resonance spectroscopy. Metabolomics 4:32-327. DOI: 10.1007/s11306-008-0128-0. Number of accession(s) cited: 1
Cheng, P., W. Holdsworth, Y. Ma, C. J. Coyne, M. Mazourek, M. A. Grusak, S. Fuchs, & R. J. McGee. 2015. Association mapping for agronomic and quality traits in USDA Pea Single-Plant collection. . Molec. Breed. 35(2):75. DOI: 10.1007/s11032-015-0277-6. Number of accession(s) cited: 324
Clement, S. L., D. C. Hardie, & L. R. Elberson. 2002. Variation among accessions of Pisum fulvum for resistance to pea weevil. Crop Sci. (Madison) 42:2167-2173. Number of accession(s) cited: 31
Clement, S. L., K. E. McPhee, L. R. Elberson, & M. A. Evans. 2009. Pea weevil, Bruchus pisorum (L.) (Coleoptera: Bruchidae), resistance in Pisum sativum x P. fulvum interspecific crosses. Pl. Breed. Rev. 128:478-486. Number of accession(s) cited: 3
Coyne, C. J., A. F. Brown, G. M. Timmerman-Vaughan, & K. E. McPhee. 2005. Refined USDA-ARS pea core collection based on 26 quantitative traits. Pisum Genet. 37:3-6. Number of accession(s) cited: 321
Coyne, C. J., M. A. Grusak, L. Razai, & B. K. Baik. 2005. Variation for pea seed protein concentration in USDA Pisum core collection. Pisum Genet. 37:5-9. Number of accession(s) cited: 479
Coyne, C. J., M. T. McClendon, J. G. Walling, G. M. Timmerman-Vaughan, S. Murray, K. Meksem, D. A. Lightfoot, J. Shultz, K. Shultz, K.Keller, R. Martin, D. Inglis, P. Rajesh, K. McPhee, N. F. Weeden, M. A. Grusak, C. Li, & E. W. Storlie. 2007. Construction and characterization of two bacterial artifical chromosome libraries of pea (Pisum sativum L.) for the isolation of economically important genes. Genome 50:1-5. Number of accession(s) cited: 1
Daba, S. D., P. Panda, U. K. Aryal, A. M. Kiszonas, S. M. Finnie, & R. J. McGee. 2025. Proteomics analysis of round and wrinkled pea (Pisum sativum L.) seeds during different development periods. Proteomics 2025:2300363 DOI: 10.1002/pmic.202300363. Number of accession(s) cited: 1
Davis, D. W., V. A. Fritz, F. L. Pfleger, J. A. Precich, & D. K. Malvick. 1995. MN 144, MN 313, MN 314: garden pea lines resistant to root rot caused by Aphanomyces eutoches Drechs. HortScience 30:639-640. Number of accession(s) cited: 3
DeMason, D. A. 2005. Extending Marx's isogenic lines in search of Uni function. Pisum Genet. 37. Number of accession(s) cited: 4
Dolezel, J., J. Greilhuber, S. Lucretti, A. Meister, M. A. Lysak, L. Nardi, & R. Obermayer. 1998. Plant genome size estimation by flow cytometry: inter-laboratory comparison. Ann. Bot. (Oxford) 82:17-26. Number of accession(s) cited: 1
Donkin, M. E., T. L. Wang, & E. S. Martin. 1983. An investigation into the stomatal behaviour of a wilty mutant of Pisum sativum. J. Exp. Biol. 34(7):825-834. Number of accession(s) cited: 1
Doss, R. P., W. M. Proebsting, S. W. Potter, & S. L. Clement. 1995. Response of Np mutant of pea (Pisum sativum L.) to pea weevil (Bruchus pisorum L.) oviposition and extracts. J. Chem. Ecol. 21(1):97-106. Number of accession(s) cited: 2
Ganzhelo, N. G. & V. V. Khangil'din. 1989. Mutant genes in the field pea. Diallel analysis of yield in varieties with the gene def for shattering habit. Soviet Genetics 25: 431-436 Number of accession(s) cited: 1
Gottschalk, W. G. 1987. Improvement of the selection value of gene dgl through recombination. Pisum Genet. 19:9-11. Number of accession(s) cited: 1
Grunwald, N. J., V. A. Coffman, & J. M. Kraft. 2003. Source of partial resistance to fusarium root rot in the Pisum core collection. Pl. Dis. 87:1197-1200. Number of accession(s) cited: 2695
Grusak, M. A. & S. Pezeshgi. 1996. Shoot-to-root signal transmission regulates root Fe(III) reductase activity in the dgl mutant of pea. Pl. Physiol. (Lancaster) 110:329-334. Number of accession(s) cited: 2
Grusak, M. A., L. V. Kochian, & R. M. Welch. 1993. Spatial and temporal development of iron(II1) reductase activity in root systems of Pisum sativum (Fabaceae) challenged with iron-deficiency stress. Amer. J. Bot. 80:300-308. Number of accession(s) cited: 1
Grusak, M. A., R. M. Welch, & L. V. Kochian. 1990. Physiological characterization of a single-gene mutant of Pisum sativum exhibiting excess iron accumulation. I. Root iron reduction and iron uptake. Pl. Physiol. (Lancaster) 93:976-981. Number of accession(s) cited: 1
Grusak, M. A. 1994. Iron Transport to Developing Ovules of Pisum sativum (I. Seed Import Characteristics and Phloem Iron-Loading Capacity of Source Regions). Pl. Physiol. (Lancaster) 104:649-655. Number of accession(s) cited: 1
Guinel, F. C. & T. A. LaRue. 1992. Ethylene inhibitors partly restore nodulation to pea mutant E 107 (brz). Pl. Physiol. (Lancaster) 99:515-518. Number of accession(s) cited: 1
Guinel, F. C. & T. A. LaRue. 1993. Excessive aluminium accumulation in the pea mutant E107 (brz). Pl. & Soil 157:75-82. Number of accession(s) cited: 1
Haglund, W. A. & J. M. Kraft. 1979. Fusarium oxysporum f. sp. pisi, race 6: occurrence and distribution. Phytopathology 69:818-820. Number of accession(s) cited: 9
Haldimann, P. & U. Feller. 2005. Growth at moderately elevated temperature alters the physiological response of the photosynthetic apparatus to heat stress in pea (Pisum sativum L.) leaves. . Plant Cell Environm. 28:302-317. Number of accession(s) cited: 1
Hance, S. T., W. Grey, & N. F. Weeden. 2004. Identification of tolerance to Fusarium solani in Pisum sativum ssp. elatius. Pisum Genet. 37:24-29. Note: Read at. Number of accession(s) cited: 1
Hellens, R. P., C. Moreau, K. Lin-Wang, K. E. Schwinn, S. J. Thomson, M. W. E. J. Fiers, T. J. Frew, S. R. Murray, J. M. I Hofer, J. M. E. Jacobs, K. M. Davies, A. C. Allan, A. Bendahmane, C. J. Coyne, G. M. Timmerman-Vaughan, & T. H. N. Ellis. 2010. Identification of Mendel's white flower character. PLoS One 5:e13230. Note: ;Allan, A.C.; Bendahmane, A.; Coyne, C.J.; Timmerman-Vaughan, G.M.; Ellis, T.H.N. Number of accession(s) cited: 1
Hellens, R. P., C. Moreau, K. Lin-Wang, K. E. Schwinn, S. J. Thomson, M. W. E. J. Fiers, T. J. Frew, S. R. Murray, J. M. I. Hofer, J. M. E. Jacobs, K. M. Davies, A. C. Allan, A. Bendahmane, C. J. Coyne, G. M. Timmerman-Vaughan, & T. H. N. Ellis. 2010. Identification of Mendel's white flower character. PLoS One 5(10):e13230. DOI: 10.1371/journal.pone.0013230. Number of accession(s) cited: 260
Highkin, H. R., N. K. Boardman, & D. J. Goodchild. 1969. Photosynthetic studies on a pea-mutant deficient in chlorophyll. Pl. Physiol. (Lancaster) 44:1310-1319. Note: For a pdf file of this article. Number of accession(s) cited: 1
Hofer, J., L. Turner, C. Moreau, M. Ambrose, P. Isaac, S. Butcher, J. Weller, A. Dupin, M. Dalmais, C. Le Signor, A. Bendahmane, & N. Ellis. 2009. Tendril-less regulates tendril formation in pea leaves. Pl. Cell 21:420-428. DOI: 10.1105/tpc.108.064071. Number of accession(s) cited: 1
Holdsworth, W. L., E. Gazave, Peng Cheng, J. R. Myers, M. A. Gore, C. J. Coyne, R. J. McGee, & M. Mazourek. 2017. A Community Resource for Exploring and Utilizing Genetic Diversity in the USDA Pea Single Plant Plus Collection. Hort. Res. (London) 4:e17017. DOI: 10.1038/hortres.2017.17. Note: Horticulture Research Number of accession(s) cited: 361
Homer, A., M. A. Islam, J. M. Krall, J. J. Nachtman, & R. W. Groose. 2019. Registration of ‘WyoWinter’ feed pea for the Central Great Plains of USA. J. Pl. Registr. 13(2):128. Number of accession(s) cited: 1
Husbands, A., T. Emirzade, & D. DeMasson. 2003. Stipule morphologies of the sinuate leaf (sil) mutants. Pisum Genet. 35:6-9. Number of accession(s) cited: 2
Infantino, A., M. Kharrar, L. Riccioni, C. J. Coyne, K. E. McPhee, & N. J. Grunwald. 2006. Screening techniques and sources of resistance to root diseases in cool season food legumes. Euphytica 147:201-221. Note: Netherlands journal of plant breeding Number of accession(s) cited: 25
Jermyn, W. A. & A. E. Slinkard. 1977. Variability of percent protein and its relationship to seed yield and seed shape in peas. Legume Res. 1:33-37. Number of accession(s) cited: 878
Johnston, J. S., M. D. Bennett, A. L. Rayburn, D. W. Galbraith, & H. J. Price. 1999. Reference standards for determination of DNA content of plant nuclei. Amer. J. Bot. 86:609-613. DOI: 10.2307/2656569. Number of accession(s) cited: 1
Katoch, V., S. Sharma, S. Pathania, D. K. Banayal, S. K. Sharma, & R. Rathour. 2010. Molecular mapping of powdery mildew resistance gene er2 to pea linkage group III. Molec. Breed. 25:229-237. Number of accession(s) cited: 1
Keen, B. E. & T. A. Larue. 1984. Peas (Pisum sativum L.) with strain specificity for rhizobium Leguminosarum. Heredity 52(3):383-389. Number of accession(s) cited: 2
Keller, K. E., I. E. Johansen, R. R. Martin, & R. O. Hampton. 1998. Potyvirus genome-linked protein (VPg) determines pea seed-borne mosaic virus pathotype-specific virulence in Pisum sativum. Molec. Pl.-Microbe Interact. 11:124-130. Number of accession(s) cited: 1
Khangildin, W.V., Khangildin. 1969. Khangildin & Khangildin 1969. Woprosy geniki I sjelekcji sjelskohozjajstwienych rastieniej Number of accession(s) cited: 1
Kneen, B. E. & T. A. LaRue. 1988. Induced symbioysis mutant of pea (Pisum sativum) and sweetclover (Melilotus alba annua). Pl. Sci. (Elsevier) 58:177-182. Number of accession(s) cited: 1
Kneen, B. E., T. A. LaRue, R. M. Welch, & N. F. Weeden. 1990. Pleiotropic effects of brz. A mutation in Pisum sativum (L.) cv 'Sparkle' conditioning decreased nodulation and increased iron uptake and leaf necrosis. Pl. Physiol. (Lancaster) 93:717-722. Number of accession(s) cited: 1
Kosterin, O. E. & V. S. Bogdanova. 2015. Reciprocal compatibility within the genus Pisum L. as studied in F₁ hybrids: 1. Crosses involving P. sativum L. subsp. sativum. Genet. Resources Crop Evol. 62:691-709. DOI: 10.1007/s10722-014-0189-z. Number of accession(s) cited: 2
Kosterin, O. E., V. S. Bogdanova & E. R. Galieva. 2019. Reciprocal compatibility within the genus Pisum L. as studied in F₁ hybrids: 2. Crosses involving P. fulvum Sibth. et Smith. Genet. Resources Crop Evol. 66:383-399. DOI: 10.1007/s10722-018-0714-6. Number of accession(s) cited: 1
Kosterin, O. E., V. S. Bogdanova, & A. V. Mglinets. 2020. Wild pea (Pisum sativum L. subsp. elatius Aschers. et Graebn. s.l.) at the periphery of its range: Zagros Mountains. Vavilov J. Genet. Breed. 24(1):60-68. Note: Vavilovskii Zhurnal Genetiki I Selektsii Number of accession(s) cited: 2
Kraft, J. M. & W. A. Haglund. 1978. A reappraisal of the race classification of Fusarium oxysporum f. sp. pisi. Phytopathology 68:273-275. Number of accession(s) cited: 7
Kraft, J. M. & W. L. Boge. 1996. Identification of characterics associated with resistance to root rot caused by Aphanomyces euteiches in pea. Pl. Dis. 80:1383-1386. DOI: 10.1094/PD-80-1383. Number of accession(s) cited: 5
Kraft, J. M., B. Dunne, D. Goulden, & S. Armstrong. 1998. A search for resistance in peas to Mycosphaerella pinodes. Pl. Dis. 82:251-253. Number of accession(s) cited: 1992
Kraft, J. M. 1988. RELEASE OF PEA BREEDING LINES 86-638, 86-2197, 86-2231, AND 86-2236. Pisum Newslett. 20: Number of accession(s) cited: 4
Kreplak, J., M. Madoui, P. Cápal, P. Novák, K. Labadie, G. Aubert, P. E. Bayer, K. K. Gali, R. A. Syme, D. Main, A. Klein, A. Bérard, I. Vrbová, C. Fournier, L. d’Agata, C. Belser, W. Berrabah, H. Toegelová, Z. Milec, J. Vrána, H. T. Lee, A. Kougbeadjo, M. Térézol, C. Huneau, C. J. Turo, N. Mohellibi, P. Neumann, M. Falque, K. Gallardo, R. McGee, B. Tar’an, A. Bendahmane, J. Aury, J. Batley, M. Le Paslier, N. Ellis, T. D. Warkentin, C. Coyne, J. Salse, D. Edwards, J. Lichtenzveig, J. Macas, J. Doležel, P. Wincker, & J. Burstin. 2019. A reference genome for pea provides insight into legume genome evolution. Nat. Genet. 51:1411-1422. DOI: 10.1038/s41588-019-0480-1. Number of accession(s) cited: 1
Lai, F.-M., C. DeLong, K. Mei, T. Wignes, & P. R. Fobert. 2002. Analysis of the DRR230 family of pea defensins: gene expression pattern and evidence of broad host-range antifungal activity. Pl. Sci. (Elsevier) 163(4):855-864. DOI: 10.1016/S0168-9452(02)00230-3. Number of accession(s) cited: 1
Liu, R., L. Fang, T. Yang, X. Zhang, J. Hu, H. Zhang, W. Han, Z. Hua, J. Hao, & X. Zong. 2017. Marker-trait association analysis of frost tolerance of 672 worldwide pea (Pisum sativum L.) collections. Sci. Rep. 7(1):5919. www.nature.com/srep/ Number of accession(s) cited: 5
Lu, B., P. J. Villani, J. C. Watson, D. A. DeMason, & T. J. Cooke. 1996. The control of pinna morphology in wild type and mutant leaves of the garden pea (Pisum sativum L.). Int. J. Pl. Sci. 157:659-673. Number of accession(s) cited: 8
Macas, J., P. Neumann, & A. Naratilova. 2007. Repetitive DNA in the pea (Pisum sativum L.) genome: comprehensive characterization using 454 sequencing and comparison to soybean and Medicago truncatula. B. M. C. Genomics 8:427. DOI: 10.1186/1471-2164-8-427. Number of accession(s) cited: 1
Malvick, D. K. & J. A. Percich. 1999. Screening of pea plant introduction collection for resistance to Aphanomyces root root 1990-1994. Biol. Cult. Tests Control Pl. Dis. 11:112-114. Number of accession(s) cited: 2195
Marentes, E. & M. A. Grusak. 1998. Iron transport and storage within the seed coat and embryo of developing seeds of pea (Pisum sativum L.). Seed Sci. Res. 8:367-375. Number of accession(s) cited: 1
Marentes, E. & M. A. Grusak. 1998. Mass determination of low-molecular-weight proteins in phloem sap using matrix-assisted laser desorption/inonisation time-of-flight mass spectroscopy. J. Exp. Biol. 49:903-911. Number of accession(s) cited: 1
Marx, G. A. 1969-. Argenteum: a mutant under nuclear and extranuclear control. Pisum Newslett. 10:34-37. Number of accession(s) cited: 1
Marx, G. A. 1974. Stocks available. Pisum Genet. 6:60. Number of accession(s) cited: 8
McGee, R. J. & K. E. McPhee. 2012. Release of Autumn-Sown Pea Germplasm PS03101269 with Food-Quality Seed Characteristics. J. Pl. Registr. 6(3):354. DOI: 10.3198/jpr2011.09.0511crg. Number of accession(s) cited: 1
McGee, R. J., C. J. Coyne, M.-L. Pilet-Nayel, A. Moussart, B. Tivoli, A. Baranger, C. Hamon, G. Vandemark, & K. McPhee. 2012. Registration of pea germplasm lines partially resistant to Aphanomyces root rot for breeding fresh or freezer pea and dry pea types. J. Pl. Registr. 6:203-207. Number of accession(s) cited: 10
McGee, R. J., H. Nelson, & K. E. McPhee. 2013. Registration of Lynx winter pea. J. Pl. Registr. 7(3):261. DOI: 10.3198/jpr2012.09.0040crc. Number of accession(s) cited: 1
McPhee, K. E. & F. J. Muehlbauer. 1999. Stem strength in the core collection of Pisum germplasm. Pisum Genet. 31:21-23. Number of accession(s) cited: 403
McPhee, K. E. & F. J. Muehlbauer. 2001. Biomass production and related characters in the core collection of Pisum germplasm. Genet. Resources Crop Evol. 48:195-203. Number of accession(s) cited: 392
McPhee, K. E. & F. J. Muehlbauer. 2002. Lifter green dry pea. Crop Sci. (Madison) 42(4):1377. Number of accession(s) cited: 2
McPhee, K. E., A. Tullu, J. M. Kraft, & F. J. Muelbauer. 1999. Resistance to Fusarium wilt race 2 in the Pisum core collection. J. Amer. Soc. Hort. Sci. 124:602-607. Number of accession(s) cited: 461
McPhee, K. 2005. Variation for Seedling Root Architecture in the Core Collection of Pea Germplasm. Crop Sci. (Madison) 45:1758-1763. DOI: 10.2135/cropsci2004.0544. Number of accession(s) cited: 330
Porter, L. D., J. M. Kraft, & N. J. Grunwald. 2014. Release of Pea Germplasm with Fusarium Resistance Combined with Desirable Yield and Anti-Lodging Traits. J. Pl. Registr. 8(2):191. DOI: 10.3198/jpr2013.07.0041crg. Number of accession(s) cited: 6
Provvidenti, R. & R. Alconero. 1988. Sources of resistance to pathotypes of pea seed-borne mosaic virus in the U.S. plant introductions of Pisum sativum. Pisum Newslett. 20:30-31. Number of accession(s) cited: 45
Provvidenti, R. & R. O. Hampton. 1993. Inheritance of resistance to white lupin mosaic virus in Pisum sativum. HortScience 28(8):836-837. Number of accession(s) cited: 2
Provvidenti, R., R. O. Hampton, & F. J. Muehlbauer. 1991. G-1000, Marx's pea breeding line for multiviral resistance. Pisum Genet. 23:50-52. Number of accession(s) cited: 2
Provvidenti, R. 1987. Inheritance of resistance to clover yellow vien virus in Pisum sativum. J. Heredity 78(2):126-128. DOI: 10.1093/oxfordjournals.jhered.a110334. Number of accession(s) cited: 7
Ravelo, G., U. Kagaya, T. Inukai, M. Sato, & I. Uyeda. 2007. Genetic analysis of lethal tip induced by Clover yellow vien virus infection in pea. J. Gen. Pl. Pathol. 73:59-65. Note: The Phytopathological Society of Japan and Springer 2007 Number of accession(s) cited: 3
Romera, F. J., R. M. Welch, W. A. Norvell, S. C. Schaefer, & L. V. Kochian. 1996. Ethylene involvement in the over-expression of Fe(III)-ehelate reduetase by roots of El07 pea [Pisum sativum L. (brz, brz)] and chloronerva tomato (Lycopersicon esculentum L.) mutant genotypes. BioMetals 9:3844. Number of accession(s) cited: 1
Ross, R. P. J. E. Oliver, W. M. Proebsting, S. W. Potter, S.-R. Kuy, S. L. Clement, R. T. Williamson, J. R. Carney, & E. D. DeVilbiss. 2000. Bruchins: insect-derived plant regulators that stimulate neoplasm formation. Proc. Natl. Acad. Sci. U.S.A. 97(11):6218-6223. DOI: 10.1073/pnas.110054697. Number of accession(s) cited: 2
Rozental, A. J. 1966. Novaya forma gorokha. Bobowyje i ziernobobowyje kultury 73-75. Number of accession(s) cited: 1
Sato, Y., R. Morita, M. Nishimura, H. Yamaguchi, & M. Kusaba. 2007. Mendel's green cotyledon gene encodes a positive regulator of the chlorophyll-degrading pathway. Proc. Natl. Acad. Sci. U.S.A. 104:14169-14174. DOI: 10.1073/pnas.0705521104. Number of accession(s) cited: 8
Schroeder, W. T. & D. W. Barton. 1958. The nature and inheritance of resistance to the pea enation mosaic virus in garden pea, Pisum sativum L. Phytopathology 48:628-632. Number of accession(s) cited: 1
Swiecicki, W. & B. Wolko. 1990. Locus for the gene def (Development funiculus). Pisum Newslett. 22:67-68. Number of accession(s) cited: 1
Tedford, E. C. & D. A. Inglis. 1999. Evaluation of legumes common to the Pacfic Northwest as hosts for the pea cyst nematode, Heterodera goettingiana. J. Nematol. 31:155-163. Number of accession(s) cited: 2252
Tiwari, K. R., G. A. Penner, & T. D. Warkintin. 1999. Identification of AFLP markers for powdery mildew resistance gene 'er2' in pea. Pisum Genet. 31:27-29. Number of accession(s) cited: 1
Torok, V. A. & J. W. Randles. 2007. Discriminating between isolates of PSbMV using nucleotide sequence polymorphisms in the HC-Pro coding region. Pl. Dis. 91(5):490-496. DOI: 10.1094/PDIS-91-5-0490. Number of accession(s) cited: 4
Villani, P. J. & D. A. DeMason. 1997. Roles of the Af and Tl genes in pea leaf morphogensis: characterization of the double mutant (afaftltl). J. Bot. 84:1323-1336. Number of accession(s) cited: 8
Villani, P. J. & D. A. DeMason. 1999. Roles of the Af and Tl genes in pea leaf morphogenesis: leaf morphology and pinna anatomy of the heterozygotes. Canad. J. Bot. 77:611-622. Number of accession(s) cited: 8
Villani, P. J. & D. A. DeMason. 1999. The Af gene regulates timing and direction of major developmental events during leaf morphogenesis in garden pea (Pisum sativum). Ann. Bot. (Oxford) 83:117-128. Number of accession(s) cited: 8
Waters, B. M., D. G. Blevins, & D. J. Eide. 2002. Characterization of FRO1, a pea ferric-chelate reductase involved in root iron acquisition. Pl. Physiol. (Lancaster) 129:85-94. Number of accession(s) cited: 2
Weeden, N. 2008. A DNA marker and a refined map position for A2. Pisum Genet. 40:41-44. Number of accession(s) cited: 1
Weeden, N. Pisum Genetics. 30:25. Number of accession(s) cited: 3
Welch, R. M. & T. A. LaRue. 1990. Physiological characteristics of Fe accumulation in the `Bronze? mutant of Pisum sativum L., cv. `Sparkle? E 107 (brz brz). Pl. Physiol. (Lancaster) 93:723-729. Number of accession(s) cited: 1
Welham, T. & C. Domoney. 2000. Temporal and spatial activity of a promoter from a pea enzyme inhibitor gene and its exploitation for seed quality improvement. Pl. Sci. (Elsevier) 159:289-299. Number of accession(s) cited: 1
Wells, D. G., W. W. Hares, & J. C. Walker. 1949. Evaluation of resistance and susceptibility in garden pea to near-wilt in the greenhouse. Phytopathology 39:771-779. Number of accession(s) cited: 1
Wolko, B. & W. K. Sweicicki. 1991. Linkages in Pisum L. VI. Locus for the gene Def (Funiculum connected). Genet. Polon. 32:95-101. Number of accession(s) cited: 1
Wolko, B. 1989. Observations of linkage between rui and loci on chromosome 6. Pisum Newslett. 21:80-81. Number of accession(s) cited: 1
Xue, A. G. & T. D. Warkentin. 2001. Partial resistance to Mycosphaerella pinodes in field pea. Canad. J. Pl. Sci. 81:535-540. Number of accession(s) cited: 1
Zaytseva, O. O., V. S. Bogdanova & O. E. Kosterin. 2012. Phylogenic reconstruction at the species and intraspecies levels in the genus Pisum (L.) (peas) using a histone H1 gene. Gene 504:192-202. DOI: 10.1016/j.gene.2012.05.026. Number of accession(s) cited: 2
Zaytseva, O. O., V. S. Bogdanova, & O. E. Kosterin. 2012. Phylogenic reconstruction at the species and intraspecies levels in the genus Pisum (L.) (peas) using a histone H1 gene. Gene 504:192-202. DOI: 10.1016/j.gene.2012.05.026. Number of accession(s) cited: 1
Zaytseva, O. O., V. S. Bogdanova, A. V. Mglinets, & O. E. Kosterin. 2017. Refinement of the collection of wild peas (Pisum L.) and search for the area of pea domestication with a deletion in the plastidic psbA-trnH spacer. Genet. Resources Crop Evol. 64:1417-1430. DOI: 10.1007/s10722-016-0446-4. Number of accession(s) cited: 5
Zong, Xuxiao, Jianping Guan, Qingchang Liu, Shumin Wang, R. R. Redden, & R. Ford. 2008. Genetic diversity and core collection of alien Pisum sativum L. germplasm. Acta Agron. Sin. 34:1518-1528. Number of accession(s) cited: 271
Zong, Xuxiao, Jianping Guan, Shumin Wang, & Qingchang Liu. 2008. Genetic diversity among Chinese pea (Pisum sativum L.) landraces as revealed by SSR markers. Acta Agron. Sin. 34:1330-1338. Number of accession(s) cited: 271
Zong, Xuxiao, R. Ford, R. R. Redden, Jianping Guan, & Shumin Wang. 2009. Identification and analysis of genetic diversity structure within Pisum genus based on microsatellite markers. Sci. Agric. Sin. 42:36-46. Number of accession(s) cited: 271
Zong, Xuxiao, R. J. Redden, Qingchang Liu, Shumin Wang, Jianping Guan, Jin Liu, Yanhong Xu, Xiuju Liu, Jing Gu, Long Yan, P. Ades, & R. Ford. 2009. Analysis of a diverse global Pisum sp. collection and comparison to a Chinese local P. sativum collection with microsatellite markers. Theor. Appl. Genet. 118:193-204. Number of accession(s) cited: 271
Cheyenne Horticultural Field Station Notes. Note: Cheyenne, Wyoming Number of accession(s) cited: 2

IPR Citations

Bandillo, N. B., T. Stefaniak, H. Worral, S. Jain, A. Kalil, M. Wunsch, J. Pasche, W. Franck, Chengci Chen, S. Forster, & K. McPhee. 2021. Registration of ‘ND Dawn’ large yellow pea. J. Pl. Registr. 15(1):053. DOI: 10.1002/plr2.20097. Number of accession(s) cited: 1
Bandillo, N., H. Worral, S. Forster, T. Stefaniak, L. Piche, A. Ross, S. Jain, et al. 2023. Registration of ‘ND Victory’ green field pea. J. Pl. Registr. 17(2):280. DOI: 10.1002/plr2.20266. Number of accession(s) cited: 1
Bing, D. J., T. K. Turkington, G. Clayton, D. Orr, A. G. Sloan, R. L. Conner, T. Warkentin, A. G. Xue, Y. Gan, C. Vera, & D. Gehl. 2007. CANSTAR Field Pea. Crop Sci. (Madison) 47(1):439. Number of accession(s) cited: 1
Bing, D. J., T. K. Turkington, G. Clayton, D. Orr, T. Warkentin, R. L. Conner, A. G. Sloan, A. G. Xue, Y. Gan, D. Gehl, & C. Vera. 2005. Miser Field Pea. Crop Sci. (Madison) 45(2):798-799. Number of accession(s) cited: 1
Bing, D., D. Beauchesne, T. K. Turkington, G. Clayton, A. G. Sloan, R. L. Conner, Y. Gan, C. Vera, D. Gehl, D. McLaren, T. Warkentin, & K. F. Chang. 2006. Reward field pea. Crop Sci. (Madison) 46(6):2705. Number of accession(s) cited: 1
Coyne, C. J., L. D. Porter, D. A. Inglis, N. J. Grunwald, K. E. McPhee, & F. J. Muehlbauer. 2008. Registration of W6 26740, W6 26743, and W6 26745 Green Pea Germplasm Resistant to Fusarium Root Rot. J. Pl. Registr. 2(2):137. DOI: 10.3198/jpr2007.12.0674crg. Number of accession(s) cited: 3
Gritton, E. T. & D. J. Hagedorn. 1971. Crop Sci. (Madison) 11(6):941. Note: CV-2 Number of accession(s) cited: 5
Gritton, E. T. 1990. Five processing pea germplasm lines. Crop Sci. (Madison) 30(5):1166. Note: GP-78 Number of accession(s) cited: 5
Hagedorn, D. J. & E. T. Gritton. 1971. Crop Sci. (Madison) 11(6):945. Note: GP-1 Number of accession(s) cited: 8
Haglund, W. A. 1976. Crop Sci. (Madison) 16(2):315. Note: GP-12 Number of accession(s) cited: 3
Homer, A., M. A. Islam, J. M. Krall, J. J. Nachtman, & R. W. Groose. 2019. Registration of ‘WyoWinter’ feed pea for the Central Great Plains of USA. J. Pl. Registr. 13(2):128. Number of accession(s) cited: 1
Kraft, J. M. & R. A. Giles. 1978. Crop Sci. (Madison) 18(6):1098. Note: GP-18 Number of accession(s) cited: 1
Kraft, J. M. & V. A. Coffman. 2000. 96-2052, 96-2058, 96-2068, 96-2198 and 96-2222 PEA GERMPLASMS. Crop Sci. (Madison) 40(1):301. Number of accession(s) cited: 10
Kraft, J. M. 1992. Three Pea Germplasms. Crop Sci. (Madison) 32(4):1076. Note: GP-83 Number of accession(s) cited: 3
Krall, J. M., S. M. Ali, D. D. Baltensperger, J. Nachtman, & R. Hybner. 2004. Forager Pea. Crop Sci. (Madison) 44(6):2271. Number of accession(s) cited: 1
McGee, R. J. & K. E. McPhee. 2012. Release of Autumn-Sown Pea Germplasm PS03101269 with Food-Quality Seed Characteristics. J. Pl. Registr. 6(3):354. DOI: 10.3198/jpr2011.09.0511crg. Number of accession(s) cited: 1
McGee, R. J., C. J. Coyne, M.-L. Pilet-Nayel, A. Moussart, B. Tivoli, A. Baranger, C. Hamon, G. Vandemark, & K. McPhee. 2012. Registration of Pea Germplasm Lines Partially Resistant to Aphanomyces Root Rot for Breeding Fresh or Freezer Pea and Dry Pea Types. J. Pl. Registr. 6(2):203. DOI: 10.3198/jpr2011.03.0139crg. Number of accession(s) cited: 8
McGee, R. J., H. Nelson, & K. E. McPhee. 2013. Registration of Lynx winter pea. J. Pl. Registr. 7(3):261. DOI: 10.3198/jpr2012.09.0040crc. Number of accession(s) cited: 1
McPhee, K. E. & F. J. Muehlbauer. 2004. Stirling Green Dry Pea. Crop Sci. (Madison) 44(5):1868-1869. Number of accession(s) cited: 1
McPhee, K. E. & F. J. Muehlbauer. 2007. Registration of ‘Specter’ Winter Feed Pea. J. Pl. Registr. 1(2):118. DOI: 10.3198/jpr2006.12.0826crc. Number of accession(s) cited: 1
McPhee, K. E., C. C. Chen, D. M. Wichman, & F. J. Muehlbauer. 2007. Registration of 'Windham' Winter Feed Pea. J. Pl. Registr. 1(2):117. DOI: 10.3198/jpr2006.12.0828crc. Number of accession(s) cited: 1
Muehlbauer, F. J., D. L. Auld, & J. M. Kraft. 1998. GRANGER AUSTRIAN WINTER PEA. Crop Sci. (Madison) 38(1):281. Number of accession(s) cited: 1
Muehlbauer, F. J., V. E. Wilson, J. M. Kraft, & R. E. Witters. 1977. Crop Sci. (Madison) 17(3):485. Note: CV-9 Number of accession(s) cited: 2
Muehlbauer, F. J. 2002. Fallon Yelow Dry Pea. Crop Sci. (Madison) 42(1):300. Number of accession(s) cited: 3
Porter, L. D., J. M. Kraft, & N. J. Grunwald. 2014. Release of Pea Germplasm with Fusarium Resistance Combined with Desirable Yield and Anti-Lodging Traits. J. Pl. Registr. 8(2):191. DOI: 10.3198/jpr2013.07.0041crg. Number of accession(s) cited: 6
Shelp, B. J., B. N. Kaiser, & A. M. Deschesne. 1998. Five near-isogenic pea with altered nodulation & nitrate reductase. Crop Sci. (Madison) 38(2):554. Number of accession(s) cited: 5
Wilson, V. E. 1977. Crop Sci. (Madison) 17(1):187. Note: CV-8 Number of accession(s) cited: 1
1958. Agron. J. 50(11):693. Number of accession(s) cited: 1
1982. Crop Sci. (Madison) 22(1):164. Note: GP-40 Number of accession(s) cited: 73
1992. Off. J. Pl. Var. Protect. Off. 20(4):21. Number of accession(s) cited: 9

Pedigree Citations

Baggett, J. R. 1982. Oregon Sugarpod II edible Pod Pea. HortScience 17(1):93-94. Number of accession(s) cited: 1
DeMason, D. A. & V. Chetty. 2014. Phenotypic characterization of the CRISPA (ARP gene) mutant of pea (Pisum sativum; Fabaceae): a reevaluation. Amer. J. Bot. 101(3):408-427. Number of accession(s) cited: 6
Haglund, W. A. 1975. Registration of Three Germplasm Lines of Peas. Crop Sci. (Madison) 16:315. Number of accession(s) cited: 1
McGee, R. J., C. J. Coyne, M.-L. Pilet-Nayel, A. Moussart, B. Tivoli, A. Baranger, C. Hamon, G. Vandemark, & K. McPhee. 2012. Registration of pea germplasm lines partially resistant to Aphanomyces root rot for breeding fresh or freezer pea and dry pea types. J. Pl. Registr. 6(2):203. Number of accession(s) cited: 8
W. Brotherton Crop Seed Pea. Number of accession(s) cited: 1

Accession

IPR

Pedigree