length polymorphism (RFLP), random amplified polymorphic DNA (RAPD), amplified fragment length polymorphism (AFLP), and microsatellites or simple sequence repeat (SSR)]. RAPD and AFLP markers are dominant and present limited reproducibility ( Jones et al
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Hafid Achtak, Ahmed Oukabli, Mohammed Ater, Sylvain Santoni, Finn Kjellberg, and Bouchaib Khadari
Briana L. Gross, Gayle M. Volk, Christopher M. Richards, Philip L. Forsline, Gennaro Fazio, and C. Thomas Chao
sequence repeat (SSR) data set, and the number of seedling trees in the nine SSR data set. Microsatellite markers have been used successfully to assess the diversity of wild and clonally propagated fruit collections ( Gökirmak et al., 2009 ; Koehmstedt et
Barbara Gilmore, Nahla Bassil, April Nyberg, Brian Knaus, Don Smith, Danny L. Barney, and Kim Hummer
using SSRs as molecular markers for identity verification. SSRs are easy to use, codominant, multiple allelic, abundant, and highly reproducible across laboratories for genotype identification ( Powell et al., 1996 ). Application of this technique to
Şurhan Göl, Sami Doğanlar, and Anne Frary
take advantage of these genetic resources. To address this problem, the genetic diversity and population structure of 101 Turkish faba bean accessions were analyzed using SSR markers. In addition, a core collection was selected based on genetic
Emmanouil N. Tzitzikas, Antonio J. Monforte, Abdelhak Fatihi, Zacharias Kypriotakis, Tefkros A. Iacovides, Ioannis M. Ioannides, and Panagiotis Kalaitzis
work, we used a set of published SSR markers ( Danin-Poleg et al., 2001 ; Fernandez-Silva et al., 2008 ; Gonzalo et al., 2005 ) to genetically assess a number of traditional Greek and Cypriot melon cultigens, not tested before, and compare these
Jacob Mashilo, Hussein Shimelis, Alfred Odindo, and Beyene Amelework
fragment length polymorphism, SSR or microsatellite markers, inter-SSR single nucleotide polymorphism, and allozyme markers ( Decker-Walters et al., 2001 ; Koffi et al., 2009 ; Saxena et al., 2015 ; Xu et al., 2014 ). SSRs are the marker of choice for
Mahdi Fendri, Isabel Trujillo, Ahmed Trigui, María Isabel Rodríguez-García, and Juan de Dios Alché Ramírez
microsatellite markers [simple sequence repeats (SSRs)] ( Baldoni et al., 2009 ; La Mantia et al., 2005 ). The microsatellite technique is one of the most reliable methods used in olive cultivar characterization. It has revealed a high informative level
Paolo Boccacci, Roberto Botta, and Mercè Rovira
cultivars due to their high discriminating power at a relatively low cost. Among the available DNA markers, microsatellite or simple sequence repeat (SSR) markers appear to be best-suited to cultivar fingerprinting. They are generally codominant, highly
Xinwang Wang, Phillip A. Wadl, Cecil Pounders, Robert N. Trigiano, Raul I. Cabrera, Brian E. Scheffler, Margaret Pooler, and Timothy A. Rinehart
sizes using pedigree-based analyses. Alleles associated with important horticultural traits could be used to accelerate future crapemyrtle breeding through molecular marker-assisted selection (MAS). SSRs were used to DNA fingerprint 93 crapemyrtle
Njung’e Vincent Michael, Pamela Moon, Yuqing Fu, and Geoffrey Meru
al., 2003 ; Formisano et al., 2012 ; Gong et al., 2012 ; Paris et al., 2003 , 2015 ). Among these, SSR markers are preferred because of their abundance in the genome, reproducibility, high level of polymorphism and codominance ( Hodel et al., 2016