Acevedo M, Steadman JR, Rosas JC, Venegas J (2008). Co-evolution of the bean rust pathogen Uromyces appendiculatus with its wild, weedy and domesticated hosts (Phaseolus spp.) at a center of diversity. Annual Report of the Bean Improvement Cooperative 51:22-23.

Acosta-Gallegos JA, Kelly JD, Gepts P (2007). Pre-breeding in common bean and use of genetic diversity from wild germplasm. Crop Science 47:44-59.
Crossref

Angioi SA, Rau D, Attene G, Nanni L, Bellucci E, Logozzo G, Negri V, Spagnoletti Zeuli PL, Papa R (2010). Beans in Europe: origin and structure of the European landraces of Phaseolus vulgaris L. Theoretical and Applied Genetics 121:829-843.
Crossref

Arunga EE, Ochuodho J, Kinyua M, Owuoche J (2012). Characterization of Uromyces appendiculatus isolates collected from snap bean growing areas in Kenya. African Journal of Agricultural Research 7(42):5685-5691.
Crossref

Arunga EE, Kinyua M, Ochuodho JO, Owuoche JO, Chepkoech E (2015). Genetic diversity of determinate French beans grown in Kenya based on morpho-agronomic and simple sequence repeat variation. Journal of Plant Breeding and Crop Science 7:240-250.
Crossref

Beebe SE, Rengifo J, Gaitan E, Duque M, Tohme J (2001). Diversity and origin of Andean landraces of common bean. Crop Science 41:854-886.
Crossref

Blair MW, Iriarte G, Beebe S (2006). QTL analysis of yield traits in an advanced backcross population derived from a cultivated Andean × wild common bean (Phaseolus vulgaris L.) cross. Theoretical and Applied Genetics 112:1149-1163.
Crossref

Blair MW, Chaves A, Tofino A, Calderon JF, Palacio JD (2010). Extensive diversity and inter-gene pool introgression of in a world-wide collection of indeterminate snap bean accessions. Theoretical and Applied Genetics 120:1381-1391.
Crossref

Carović-Stanko K, Liber Z, Vidak M, Barešić A, Grdiša M, Lazarević B, Šatović Z (2017). Genetic diversity of Croatian common bean landraces. Frontiers of Plant Science 8:604.
Crossref

Chilagane LA., Nchimbi-Msolla S, Kusolwa PM, Porch TG, Diaz LMS, Tryphone GM (2016). Characterization of the common bean host and Pseudocercospora griseola, the causative agent of angular leaf spot disease in Tanzania. African Journal of Plant Science 10(11):238-245.
Crossref

Cunha C, Hintz T, Griffiths P (2004). Genetic diversity of snap bean cultivars determined using randomly amplified polymorphic DNA (RAPD) markers. HortScience 39(3):481-484.
Crossref

Davis JW, Kean D, Yorgey B, Fourie D, Miklas PN, Myers JR (2006). A molecular marker linkage map of snap bean (Phaseolus vulgaris). Annual Report of Bean Improvement Cooperative 49:73-74.

De La Fuente M, López-Pedrouso M, Alonso J, Santalla M, De Ron AM, Álvarez G, Zapata C (2012). In-depth characterization of the phaseolin protein diversity of common bean (Phaseolus vulgaris L.) based on two-dimensional electrophoresis and mass spectrometry. Food Technology and Biotechnology 50(3):315-332.

Gepts P, Osborn TC, Rashka K, Bliss FA (1986). Phaseolin-protein variability in wild forms and landraces of the common bean (Phaseolus vulgaris): evidence for multiple centers of domestication. Economic Botany 40:451-468.
Crossref

Gepts P, Bliss FA (1988). Dissemination pathways of common beans (Phaseolus vulgaris, Fabaceae) deduced from phaseolin electrophoretic variability. II. Europe and Africa. Economic Botany 42:86-104.
Crossref

Hagerty CH, Cuesta-Marcos A, Cregan P, Qijian Song Q, McClean P, Myers JR (2016). Mapping snap bean pod and color traits, in a dry bean × snap bean recombinant inbred population. Journal of American Society of Horticultural Science 141(2):131-138.
Crossref

Johnson WC, Gepts P (1999). Segregation for performance in recombinant inbred populations resulting from inter-gene pool crosses of common bean (Phaseolus vulgaris L.). Euphytica 106(1):45-56.

Kami J, Velásquez BV, Debouck DG, Gepts P (1995). Identification of presumed ancestral DNA sequences of phaseolin in Phaseolus vulgaris. Proceedings of the National Academy of Sciences USA 92:1101-1104.
Crossref

Kelly JD, Kolkman JM, Schneider K (1998). Breeding for yield in dry bean (Phaseolus vulgaris L.). Euphytica 102:343-346.
Crossref

Kimno S, Kiplagat O, Arunga E, Chepkoech E (2016). Evaluation of selected French bean (Phaseolus vulgaris L.) genotypes for resistance to angular leaf spot (Pseudocercospora griseola) in Western Kenya. American Journal of Experimental Agriculture 13(4):1-6.
Crossref

Koinange EMK, Singh SP, Gepts P (1996). Genetic control of the domestication syndrome in common bean. Crop Science 36:1037-1045.
Crossref

Kwak M, Gepts P (2009). Structure of genetic diversity in the two major gene pools of common bean (Phaseolus vulgaris L. Fabaceae). Theoretical and Applied Genetics 118:979-992.
Crossref

Liebenberg MM, Pretorius ZA (1997). A Review of Angular Leaf Spot of Common Bean (Phaseolus vulgaris L.). African Plant Protection 3:81-106.

Liljegren S, Ditta G, Eshed Y, Savidge B, Bowmanand J, Yanofsky M (2000). Control of fruit dehiscence in Arabidopsis by the SHATTERPROOF MADS-box genes. Nature 404:766-769.
Crossref

Liu K, Muse SV (2005). PowerMaker: An integrated analysis environment for genetic marker analysis. Bioinformatics 21(9):2128-29.
Crossref

Mahuku GS (2004). A simple extraction method suitable for PCR-based analysis of plant, fungal, and bacterial DNA. Plant Molecular Biology Reporter 22:71-81.
Crossref

McClean PE, Lee RK (2007). Genetic architecture of chalcone isomerase non-coding regions in common bean (Phaseolus vulgaris L.). Genome 50:203-214.
Crossref

Metais I, Hamon B, Jalouzot R, Peltier D (2002). Structure and level of genetic diversity in various bean types evidenced with microsatellite markers from a genomic enriched library. Theoretical and Applied Genetics 104:1346-1352.
Crossref

Miklas PN, Kelly JD, Beebe SE, Blair MW (2006). Common bean breeding for resistance against biotic and abiotic stresses: from classical to MAS breeding. Euphytica 147:106-131.
Crossref

Miklas P (2007). Marker-assisted backcrossing QTL for partial resistance to sclerotinia white mold in dry bean. Crop Science 47:935-942.
Crossref

Mogita WG, Ochuodho JO, Gohole LS (2013). Analysis of western Kenya isolates of Colletotrichum lindemuthianum casual agent of bean anthracnose using pathogenicty and BOX-AIR analysis. African Journal of Education, Science and Technology 1(3):155-162.

Myers JR., Kmiecik K (2017). Common Bean: Economic Importance and Relevance to Biological Science Research. In Perez de la Vega M, Santalla M, Marsolais F (eds) The Common Bean Genome. Springer, Cham pp. 1-20.
Crossref

Nanni L, Bitocchi E, Bellucci E, Rossi M, Rau D, Attene G, Gepts P, Papa R (2011). Nucleotide diversity of a genomic sequence similar to SHATTERPROOF (PvSHP1) in domesticated and wild common bean (Phaseolus vulgaris L.). Theoretical and Applied Genetics 123:1341-1357.
Crossref

Okii D, Tukamuhabwa P, Kami J, Namayanja A, Paparu P, Ugen M, Gepts P (2014). The genetic diversity and population structure of common bean (Phaseolus vulgaris L.) germplasm in Uganda. African Journal of Biotechnology 13(29):2935-2949.

Papa R, Nanni L, Sicard D, Rau D, Attene G (2006). The evolution of genetic diversity in Phaseolus vulgaris L. In: Motley TJ, Zerega N, Cross H (eds) New approaches to the origins. Evolution and conservation of crops. Darwin's Harvest. Columbia University Press, New York, pp 121-142.
Crossref

Perrier X, Jacquemoud-Collet JP (2006). DARwin software 

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Pipan B, Meglic V (2019). Diversification and genetic structure of the western-to-eastern progression of European Phaseolus vulgaris L. germplasm. BMC Plant Biology 19:442.
Crossref

Singh SP, Gutierrez JA, Molina A, Urrea C, Gepts P (1991). Genetic diversity in cultivated common bean: II. Marker-based analysis of morphological and agronomic traits. Crop Science 31:23-29.
Crossref

Singh SP (2001). Broadening the genetic base of common bean cultivars. Crop Science 41(6):1659-1675.
Crossref

Singh BK, Singh B (2015). Breeding perspectives of snap beans (Phaseolus vulgaris L.). Vegetable Science 42(1):1-17.

Wahome SW, Kimani PM, Muthomi JW, Narla RD, Buruchara R (2011). Multiple disease resistance in snap bean genotypes in Kenya. African Crop Science Journal 19(4):289-302.

Wallace L, Arkwazee H, Kelly V, Myers JR (2018). Genetic diversity within snap beans and their relation to dry beans. Genes 9(12):587.
Crossref

Wasonga J, Pastor-Corrales MA, Timothy G, Porch P, Griffiths D (2010). Targeting gene combinations for broadspectrum rust resistance in heat-tolerant snap beans developed for tropical environments. Journal of American Society for Horticultural Science 135(6):521-532.
Crossref