The term ‘underutilized’ is often used to characterize the range of plant species whose potential contribution to food security,health, income generation, and environmental services has not yet been fully exploited. To harness unexploited resources, the first step is to prevent them from extinction and to conserve them in- and/or ex-situ. To utilize plant species as crops, plants must be collected, conserved, evaluated, and then if necessary manipulated. In this context, significant international efforts have focused on impeding the erosion of genetic diversity.
Thousands of new accessions are introduced into germplasm institutes each year. Assessment of their molecular diversity is necessary to eliminate redundant genotypes. Marker systems have been used not only for genotyping to reduce redundancy and develop a core set, but also for a wide variety of other purposes. The use of markers based on single nucleotide polymorphisms,copy number variation, and insertions/deletions,as well as genotyping by sequencing, is becoming popular for genetic mapping and analyses of quantitative trait loci. This review discusses current marker systems and genomic analyses of a number of underutilized crops.

1 Choi IY, "soybeantranscript map: Gene distribution, haplotype and single-nucleotide polymorphism analysis" 176 : 685-696, 2007

2 Yonezawa KA, "definition of the optimal allocation of effortin conservation of plant genetic resources-with application to samplesize determination for field collection" 34 : 345-354, 1985

3 Kim MY, "Whole-genome sequencingand intensive analysis of the undomesticated soybean (Glycinesoja Sieb. and Zucc.) genome" 2010

4 Huang SP, "Varietal responseand estimates of heritability of resistance to Meloidogyne javanicain carrots" 18 : 496-501, 1986

5 Rodriguez JM, "Variationamong and within Capsicum species revealed by RAPD markers" 99 : 147-156, 1999

6 Varghese J, "Use of 50-anchored primers for the enhanced recovery of specific microsatellitemarkers in Brassica napus L" 101 : 115-119, 2000

7 Wang LX, "Transferability of SSR Markers from Adzuki Bean intoMungbean" 35 : 816-820, 2009

8 Lu F-H, "Transcriptome analysis andSNP/SSR marker information of red pepper variety YCM334 andTaean" 129 : 38-45, 2011

9 Lim Y, "Toward unraveling the structure of Brassica rapa genome" 126 : 585-591, 2006

10 Struss D, "The use of microsatellite markers fordetection of genetic diversity in barley populations" 97 : 308-315, 1998

11 Ouborg NJ, "The rough edges of theconservation genetics paradigm for plants" 94 : 1233-1248, 2006

12 Karolus JP, "The potencialof AFLPs in biosystematics: a first application in Solanum taxonomy(Solanaceae)" 210 : 87-103, 1998

13 Jaillon O, "The grapevinegenome sequence suggests ancestral hexaploidization in majorangiosperm phyla" 449 : 463-467, 2007

14 Shulaev V, "The genome of woodland strawberry (Fragaria vesca)" 43 : 2011

15 Velasco R, "The genome of the domesticated apple (Malus × domesticaBorkh.)" 42 : 833-839, 2010

16 Huang S, "The genome of the cucumber,Cucumis sativus L" 41 : 1275-1281, 2009

17 Tuskan GA, "The genome of black cottonwood, Populus trichocarpa (Torr. Gray)" AMER ASSOC ADVANCEMENT SCIENCE 313 (313): 1596-1604, 200609

18 칼슨, "The genome of Theobroma cacao" NATURE PUBLISHING GROUP 43 (43): 101-108, 201102

19 Ming R, "The draft genome of thetransgenic tropical fruit tree papaya (Carica papaya Linnaeus)" 452 : 991-996, 2008

20 Wang XW, "The developmentof SSR markers by a new method in plants and theirapplication to gene flow studies in azuki bean [Vigna angularis(Willd.) Ohwi and Ohashi]" 109 : 352-360, 2004

21 Kaga A, "The development of agenetic linkage map for azuki bean. In Annual report" NationalInstitute of Agrobiological Sciences. 2006

22 Sax K, "The association of size differences with seed-coat patternand pigmentation in Phaseolus vulgaris" 8 : 552-560, 1923

23 Paterson AH, "The Sorghum bicolor genome and the diversificationof grasses" 457 : 29-, 2009

24 Banks JA, "The Selaginella Genome Identifies Genetic ChangesAssociated with the Evolution of Vascular Plants" 332 : 960-963, 2011

25 Bapteste E, "The Potential Value of Indels asPhylogenetic Markers: Position of Trichomonads as a Case Study" 19 : 972-977, 2002

26 Rensing SA, "The Physcomitrella Genome Reveals Evolutionary Insightsinto the Conquest of Land by Plants" 319 : 64-69, 2008

27 Kaga A, "The Genetics of Domestication of the Azuki Bean (Vigna angularis)" 178 : 1013-1036, 2008

28 Cock JM, "The Ectocarpus genome and the independentevolution of multicellularity in brown algae" 465 : 617-621, 2010

29 Grzebelus D, "The DcMaster transposondisplay maps polymorphic insertion sites in the carrot(Daucus carota L.) genome" 390 : 64-67, 2007

30 Wang Z, "Survey ofplant short tandem DNA repeats" 88 : 1-6, 1994

31 Wang Z, "Survey ofplant short tandem DNA repeats" 88 : 1-6, 1994

32 Mullis K, "Specific enzymatic amplification of DNA in vitro: The polymerasechain reaction" 51 : 263-273, 1986

33 Santos CAF, "Some AFLP amplicons are highlyconserved DNA sequences mapping to the same linkage groupsin two F2 populations of carrot" 25 : 195-201, 2002

34 Vishnoi RK, "Somatic embryogenesis and efficientplant regeneration in immature inflorescence culture ofSetaria italica (L) Beauv" 24 : 291-297, 1996

35 Jakse M, "Single nucleotidepolymorphisms, indels, and simple sequence repeats for onioncultivar identification" 130 : 912-917, 2005

36 Gupta PK, "Single nucleotide polymorphisms:A new paradigm for molecular marker technologyand DNA polymorphism detection with emphasis on their usein plants" 80 : 524-535, 2001

37 Park YJ, "Simple sequence repeat polymorphisms(SSRPs) for evaluation of molecular diversity andgermplasm classification of minor crops" 14 : 4546-4569, 2009

38 Bark OH, "Similarities and relationships amongpopulations of the bulb onion as estimated by nuclear RFLPs" 90 : 407-414, 1995

39 Li P, "Setaria viridis and Setaria italica, modelgenetic systems for the Panicoid grasses" 62 : 3031-3037, 2011

40 Ramírez M, "Sequencingand analysis of common bean ESTs: Building a foundation forfunctional genomics" 137 : 1211-1227, 2005

41 Moe KT, "Sequence information on simple sequencerepeats and single nucleotide polymorphisms through transcriptomeanalysis of mungbean" 53 : 63-73, 2010

42 Sato S, "Sequence analysis of the genome of an oil-bearing tree, Jatrophacurcas L" 18 : 65-76, 2011

43 Sobrino B, "SNPs in forensic genetics:A review on SNP typing methodologies" 154 : 181-194, 2005

44 Chang C, "Restriction fragment length polymorphism linkage map forArabidopsis thaliana" 85 : 6856-6860, 1988

45 Jones CJ, "Reproducibility testing of RAPD, AFLP and SSR markersin plants by a network of European laboratories" 3 : 381-390, 1997

46 Annex Ii, "Relative importance of millet species, 1992-94, In TheWorld Sorghum and Millet Economies: Facts, Trends andOutlook" Food and Agriculture Organization of the UnitedNations 1996

47 Hamrick JL, "Relationships betweenlife history characteristics and electrophoretically detectable geneticvariation in plants" 10 : 173-200, 1979

48 Ritter E, "Recursos genómicos en la papa y posibilidades de su explotación" Suplemento Revista Latinoamericana de la Papa 2-18, 2004

49 Tanksley SD, "RFLP mapping in plant breeding: New tools for an old scienceNat" 7 : 257-264, 1989

50 최학순, "RAPD에 의한 마늘 유전 자원 및 가임 마늘의 유연 관계 분석" 한국원예학회 44 (44): 595-600, 2003

51 Sun G, "RAPD andpedigree-based genetic diversity estimates in cultivated diploidpotato hybrids" 107 : 110-115, 2003

52 Parida A, "Quantitative DNA variationbetween and within chromosome complements of Vigna species(Fabaceae)" 82 : 125-133, 1990

53 Wang C, "Population genetics of foxtail milletand its wild ancestor" 11 : 90-, 2010

54 Khandakar Md. Rayhanul Kabir, "Population Structure of Mungbean Accessions Collected from South and West Asia using SSR markers" 한국육종학회 43 (43): 14-22, 2011

55 Lyamichev V, "Polymorphism identification and quantitative detection ofgenomic DNA by invasive cleavage of oligonucleotide probes" 17 : 292-296, 1999

56 Kunkel G, "Plants for Human Consumption" Koeltz ScientificBooks 1984

57 Vetriventhan M, "Phenotypic and genetic diversity in the foxtailmillet (setaria italica (l.) p. beauv.) core collection" Tamil Nadu Agricultural University. 2011

58 Gepts P, "Phaseolin variability among wild andcultivated common beans (Phaseolus vulgaris) from Colombia" 40 : 469-478, 1986

59 Gepts P, "Phaseolin proteinvariability in wild forms and landraces of common bean(Phaseolus vulgaris L.): evidence for multiple centers ofdomestication" 40 : 451-468, 1986

60 Nova MXV, "Pathogenicityfor onion and genetic diversity of isolates of the pathogenic fungusColletotrichum gloeosporioides (Phyllachoraceae) from theState of Pernambuco" 10 : 311-320, 2011

61 Morgante M, "PCR-amplified microsatellitesas markers in plant genetics" 3 : 175-182, 1993

62 Friesen N, "Origin of some vegetatively propagatedAllium crops studied with RAPD and GISH" 45 : 511-523, 1998

63 Fischer D, "Onion microsatellites for germplasmanalysis and their use in assessing intra- and interspecificrelatedness within the subgenus Rhizirideum" 101 : 153-164, 2000

64 Snowdon RJ, "Oilseed rape. In Kole,C. ed., Genome Mapping and Molecular Breeding" Oilseeds 114-, 2006

65 Arumuganathan K, "Nuclear DNA content ofsome important plant species" 9 : 208-218, 1991

66 Bennett MD, "Nuclear DNA amountsin angiosperms and their modern uses-807 new estimates" 86 : 859-909, 2000

67 Iannone MA, "Multiplexed single nucleotide polymorphismgenotyping by oligonucleotide ligation and flowcytometry" 39 : 131-140, 2000

68 Lindroos K, "Multiplex SNP genotyping in pooled DNA samplesby a four-colour microarray system" 30 : e70-, 2002

69 Osman SAM, "Morphological, germination, bolting and cytogenetical characteristicsof fourteen promising garlic genotypes" 8 : 2005-2012, 2007

70 Cramer CS, "Morphological, biochemical, andmolecular markers in onion" 34 : 589-593, 1999

71 Javadi F, "Molecular phylogeny of the subgenus Ceratotropis (genus Vigna,Leguminosae) reveals three eco-geographical groups and LatePliocene-Pleistocene diversification: evidence from four plastidDNA region sequences" 108 : 367-380, 2011

72 Kaga A, "Molecular markersin Vigna improvement: Understanding and using gene pools. In:Biotechnology in agriculture and forestry, Molecular marker systems" Springer 171-187, 2005

73 Zhao WG, "Molecular geneticdiversity and population structure of a selected core set in garlicand its relatives using novel SSR markers" 130 : 46-54, 2011

74 Jae-Gyun Gwag, "Molecular diversity assessment and population structure analysis in mungbean, Vigna radiata (L.) Wilczek" 서울대학교 대학원 2008

75 Solano SJ, "Molecular descriptionand similarity relationships among native germplasm potatoes(Solanum tuberosum ssp. tuberosum L.) using morphological dataand AFLP markers" 10 : 436-443, 2007

76 Ipek M, "Molecular characterizationof Kastamonu garlic: an economically important garlic clone inTurkey" 115 : 203-208, 2008

77 Bayraktar H, "Molecular Identification andGenetic Diversity of Fusarium species Associated with OnionFields in Turkey" 159 : 28-34, 2011

78 Kumpatla SP, "Mining and survey of simplesequence repeats in expressed sequence tags of dicotyledonousspecies" 48 : 985-998, 2005

79 Cavagnaro PF, "Microsatelliteisolation and marker development in carrot - genomic distribution,linkage mapping, genetic diversity analysis and marker transferabilityacross Apiaceae" 12 : 386-, 2011

80 Burle ML, "Microsatellitediversity and genetic structure among common bean (Phaseolusvulgaris L.) landraces in Brazil, a secondary center of diversity" 121 : 801-813, 2010

81 Hashimoto K, "Methodof detecting nucleic acid relating to disease" 137 : 56-72, 2004

82 Joy PP, "Medicinal plants.Aromatic and Medicinal Plants Research Station" KeralaAgricultural University 1998

83 Just BJ, "Major QTLfor carrot color are positionally associated with carotenoid biosyntheticgenes and interact epistatically in a domesticated × wildcarrot cross" 119 : 1155-1169, 2009

84 Trujillo-Moya C, "Localization of QTLs for in vitro plant regeneration in tomato" 11 : 140-, 2011

85 Vivek BS, "Linkage relationships among molecularmarkers and storage root traits of carrot (Daucus carota L.spp. sativus" 99 : 58-64, 1999

86 Schulz B, "Linkage groups of isozymes,RFLP and RAPD markers in carrot (Daucus carota L.sativus)" 74 : 67-76, 1993

87 Yudina RS, "Isozyme Analysis in a Genetic Collectionof Amaranths (Amaranthus L.)" 41 : 1395-1400, 2005

88 Lankhorst RMK, "Isolation of molecular markers for tomato (L. escu-lentum) using random amplified polymorphic DNA (RAPD)" 83 : 108-114, 1991

89 Suwabe K, "Isolation and characterization of microsatellites in Brassica rapaL" 104 : 1092-1098, 2002

90 Ma KH, "Isolation and characteristicsof eight novel polymorphic microsatellite loci from the genomeof garlic (Allium sativum L.)" 122 : 355-361, 2009

91 Väli U, "Insertion-deletion polymorphisms (indels) as genetic markers innatural populations" 9 : 8-, 2008

92 Ortiz R, "Inheritance of morphological and tubercharacteristics, In PotatoGenetics" CAB International 263-279, 1994

93 Jeffreys AJ, "Individual-specific‘ingerprints’"of human DNA" 316 : 76-79, 1985

94 Stegemann H, "Index Europäischer Kartoffelsorten; Bestimmung durch elecktrophoretische Spektren" Paul Parey 214-, 1976

95 Römer P, "Identification and applicationof a DNA-based marker that is diagnostic for the pepper(Capsicum annuum) bacterial spot resistance gene Bs3" 129 : 737-740, 2010

96 Hyten DL, "High-throughput SNP discovery through deep resequencing of areduced representation library to anchor and orient scaffolds inthe soybean whole genome sequence" 11 : 38-, 2010

97 Tanksley SD, "High density molecular linkage maps of the tomatoand potato genomes" 132 : 1141-1160, 1992

98 우수영, "Growth and Eco-Physiological Characteristics of Panax ginseng Grown under Three Different Forest Types" 한국식물학회 47 (47): 230-235, 2004

99 Carlson AW, "Ginseng: America’ botanical drug connectionto the orient" 40 : 233-249, 1986

100 Hijmans RJ, "Geographic distribution of wildpotato species" 88 : 2101-2112, 2001

101 Schmutz J, "Genome sequenceof the palaeopolyploid soybean" 463 : 178-183, 2010

102 Schmutz J, "Genome sequenceof the palaeopolyploid soybean" 463 : 14-, 2010

103 PGSC, "Genome sequence and analysis of the tuber crop potato,Potato Genome Sequencing Consortium" 475 : 189-, 2011

104 Livingstone KD, "Genome mapping in Capsicum and evolution of genomestructure in the Solanaceae" 152 : 1183-1202, 1999

105 Myles S, "Geneticstructure and domestication history of the grape" 108 : 3530-3535, 2011

106 Hedrick PW, "Genetics of Population" Jones andBartlett Pub. Co 2005

107 Martin WJ, "Geneticmapping of expressed sequences in onion and in silico comparisonswith rice show scant colinearity" 274 : 197-204, 2005

108 Mccallum J, "Geneticdversity analysis and single-nucleotide polymorphism marker developmentin cultivated bulb onion based on expressed sequencetag-simple sequence repeat markers" 133 : 810-818, 2008

109 Chen Y, "Genetic variation and relationshipsamong cultivated, wild and semiwild soybean" 44 : 316-325, 2004

110 Liu Y, "Genetic transformationof millet (Setaria italica) by Agrobacterium-mediated" 13 : 32-37, 2005

111 Bretting PK, "Genetic markers and plantgenetic resource management" 13 : 11-86, 1995

112 McCallum J, "Genetic mapping of a major gene affecting onion bulb fructancontent" 112 : 958-967, 2006

113 Bornet B, "Genetic diversityin European and Argentinian cultivated potatoes (Solanumtuberosum subsp. tuberosum) detected by inter-simple sequencerepeats (ISSRs)" 45 : 481-484, 2002

114 Lampasona GS, "Genetic diversityamong selected Argentinean garlic clones (Allium sativum L.) usingAFLP (Amplified Fragment Length Polymorphism)" 132 : 115-119, 2003

115 Volk GM, "Genetic diversityamong U.S. garlic clones as detected using AFLP methods" 129 : 559-569, 2004

116 Xu HX, "Genetic diversity of the azuki bean (Vigna angularis(Willd.) Ohwi & Ohashi) gene pool as assessed by SSR markers" 51 : 728-738, 2008

117 Maia SHZ, "Genetic diversity in somatic mutants of grape (Vitis vinifera) cultivarItalia based on random amplified polymorphic DNA" 8 : 28-38, 2009

118 Li Y-H, "Genetic diversity in domesticated soybean (Glycinemax) and its wild progenitor (Glycine soja) for simple sequencerepeat and single-nucleotide polymorphism loci" 188 : 242-253, 2010

119 Singh SP, "Genetic diversity in cultivated common bean. II Marker-basedanalysis of morphological and agronomic traits" 31 : 23-29, 1991

120 Chan KF, "Genetic diversity and relationships detectedby isozyme and RAPD analysis of crop and wild speciesof Amaranthus" 95 : 865-873, 1997

121 Hunt HV, "Genetic diversity and phylogeographyof broomcorn millet (Panicum miliaceum L.) across Eurasia" 20 : 4756-4771, 2011

122 Sammour RH, "Genetic diversity and allele mining in soybeangermplasm, soybean -genetics and novel techniques for yield enhancement" 2011

123 Scandalios JG, "Genetic control of multiple molecular formsof enzymes in plants: A review" 3 : 37-79, 1969

124 Frankel OH, "Genetic Perspectives of Germplasm Conservation.In: In Genetic Manipulation: Impact On Man And Society" Cambridge University Press 161-170, 1984

125 Thibivilliers S, "Generation of Phaseolusvulgaris ESTs and investigation of their regulation uponUromyces appendiculatus infection" 9 : 46-, 2009

126 Blair MW, "Gene-based SSRmarkers for common bean (Phaseolus vulgaris L.) derived fromroot and leaf tissue ESTs: an integration of the BMc series" 11 : 50-, 2011

127 Sybänen AC, "From gels to chips: “inisequencing”primerextension for analysis of point mutations and single nucleotidepolymorphisms" 13 : 1-10, 1999

128 Haseneyer G, "From RNA-seq to large-scale genotyping - genomics resourcesfor rye (Secale cereale L.)" 11 : 131-, 2011

129 Haseneyer G, "From RNA-seq to large-scale genotyping - genomics resourcesfor rye (Secale cereale L.)" 11 : 131-, 2011

130 Doust AN, "FoxtailMillet: A Sequence-Driven Grass Model System" 149 : 137-141, 2009

131 Suh H, "Forest cultivated ginsengin Korea: All cure medicinal plants" 5 : 5331-5336, 2011

132 Hanai LR, "Extension of the core map of commonbean with EST-SSR, RGA, AFLP, and putative functionalmarkers" 25 : 25-45, 2010

133 Illumina, "Expanding CNV Detection into the unSNPableGenome. In collaboration with deCODE Genetics"

134 Nabulsi I, "Evaluation ofsome garlic (Allium sativum L.) mutants resistant to white rotdisease by RAPD analysis" 138 : 197-202, 2001

135 Malik MFA, "Evaluation of genetic diversity in soybean (Glycine max) linesusing seed protein electrophoresis" 3 : 107-112, 2009

136 Moe KT, "Efficiency of PowerCorein core set development using amplified fragment length polymorphicmarkers in mungbean" 2011

137 Chan AP, "Draft genomesequence of the oilseed species Ricinus communis" 28 : 951-959, 2010

138 Simon PW, "Domestication, historical development, and modernbreeding of carrot" 19 : 157-190, 2000

139 Tryphone GM, "Diversity of common bean(Phaseolus vulgaris L.) genotypes in iron and zinc contents underscreenhouse conditions" 5 : 2010

140 Ali A, "Disease related molecular markers in carrot (Daucuscarota L.) one year progress report, submitted to Heigh education commission Parkistan" department of horticultureuniversity of Wisconsin-Madison 2008

141 Bozzini A, "Discovery of Italian fertile tetraploid line of garlic" 45 : 436-438, 1991

142 Hanai LR, "Development, characterization andcomparative analysis of polymorphism at common bean SSR lociisolated from genic and genomic sources" 50 : 266-277, 2007

143 Maughan PJ, "Development, Characterization, and Linkage Mapping of SingleNucleotide Polymorphisms in the Grain Amaranths (Amaranthussp)" 4 : 92-101, 2011

144 Huang S, "Development of pepper SSR markers from sequence databases" 117 : 163-167, 2000

145 Ashkenazi V, "Development of microsatellite markers in potato and theiruse in phylogenetic and fingerprinting analyses" 44 : 50-62, 2001

146 Lee JW, "Development of anISSR-Derived SCAR marker in Korean ginseng cultivars (Panaxginseng C. A. Meyer)" 35 : 52-59, 2011

147 Fernandez M, "Development of a phylogenetic tree in garlic(Allium sativum L.) using targeted mtDNA-PCR and RAPDanalysis" San JoseState University 2001

148 Hyun Jung Kim, "Development of a Sequence Characteristic Amplified Region Marker linked to the L4 Locus Conferring Broad Spectrum Resistance to Tobamoviruses in Pepper Plants" 한국분자세포생물학회 25 (25): 205-210, 2008

149 Caranta C, "Development of a CAPSmarker for the Pvr4 locus: A tool for pyramiding potyvirus resistancegenes in pepper" 42 : 1111-1116, 1999

150 Li H, "Development and genetic mapping of microsatellitemarkers from whole genome shotgun sequences in<i>Brassica oleracea</i>" 28 : 585-596, 2011

151 Blair MW, "Development and diversity assessment of Andean-derived,gene-based microsatellites for common bean (Phaseolus vulgarisL.)" 9 : 100-, 2009

152 Nagy I, "Development and characterizationof microsatellte markers in pepper" 235-237, 1998

153 Mallory MA, "Development and Characterization ofMicrosatellite Markers for the Grain Amaranths" 48 : 1098-1106, 2008

154 Ipek M, "Demonstrationof linkage and development of the first low-density genetic mapof garlic, based on AFLP markers" 110 : 228-236, 2005

155 Lallemand J, "Delimitationof varietal groups in garlic (Allium sativum L.) by morphological,physiological and biochemical characters" 433 : 123-132, 1997

156 Dous EKA, "De novo genome sequencing and comparativegenomics of date palm (Phoenix dactylifera)" 29 : 521-527, 2011

157 Dous EKA, "De novo genome sequencing and comparativegenomics of date palm (Phoenix dactylifera)" 29 : 521-527, 2011

158 Karp A, "DNA markers: A Global Overview.In DNA Markers: Protocols, Applications, And Overviews" Wiley-VCH Inc 1-13, 1997

159 Isenegger DA, "DNA fingerprinting and genetic relationshipsof potato cultivars (Solanum tuberosum L.) commercially grownin Australia" 52 : 911-918, 2001

160 Srimathy M, "Cross species amplification ofAdzuki Bean derived microsatellite markers in Asian Vignaspecies" 1 : 1171-1179, 2010

161 Brown AHD, "Core collections: A practical approach to geneticresources management" 31 : 818-824, 1989

162 Lefebvre V, "Constructionof an intraspecific integrated linkage map of pepper using molecularmarkers and doubled-haploid progenies" 38 : 112-121, 1995

163 Westphal L, "Construction of a linkage map ofDaucus carota L. sativus and its application for the mappingof disease resistance and restorer genes" 38A : 13-19, 1997

164 Botstein D, "Construction of a genetic linkage map in man using restrictionfragment length polymorphisms" 32 : 314-331, 1980

165 Wang ZM, "Construction of RFLP-based maps of foxtail millet, Setaria italica(L.) P. Beauv" 96 : 31-36, 1998

166 Zhang JP, "Construction and application of EST library from Setaria italicain response to dehydration stress" 90 : 121-131, 2007

167 Choumane W, "Conservationof microsatellite flanking sequences in different taxa ofLeguminosae" 138 : 239-245, 2004

168 Spooner DM, "Comparison of AFLPswith other markers for phylogenetic inference in wild tomatoes(Solanum L. section Lycopersicon [Mill.] Wettst)" 54 : 43-61, 2005

169 Ipek M, "Comparison of AFLPs, RAPDmarkers, and isozymes for diversity assessment of garlic and detectionof putative duplicates in germplasm collection" 128 : 246-252, 2003

170 Katari M, "Comparing low coverage random shotgun sequence datafrom Brassica oleracea and Oryza sativa genome sequence fortheir ability to add to the annotation of Arabidopsis thaliana" 15 : 496-504, 2005

171 Menancio HD, "Comparative genome analysis of mungbean (Vigna radiataL. wilczek) and cowpea (V. unguiculata L. Walpers) using RFLPmapping data" 86 : 797-810, 1993

172 Devos KM, "Comparative genetic maps of foxtail millet (Setaria italica) andrice (Oryza sativa)" 96 : 63-68, 1998

173 Melotto M, "Comparative bioinformatic analysis of genes expressed in commonbean (Phaseolus vulgaris) seedlings" 48 : 562-570, 2005

174 Xu F, "Comparative analysis of phylogenetic relationshipsof grain amaranths and their wild relatives (AmaranthusAmaranthaceae) using internal transcribed spacer, amplified fragmentlength polymorphism, and double-primer fluorescent intersimplesequence repeat markers" 21 : 372-387, 2001

175 Bradley KF, "Classification ofAustralian garlic cultivars by DNA fingerprinting" 36 : 613-618, 1996

176 Raker CM, "Chilean tetraploid cultivated potato,Solanum tuberosum, is distinct from the Andean populations:microsatellite data" 42 : 1451-1458, 2002

177 Lee JM, "Characterizationand molecular genetic mapping of microsatellite loci in pepper" 108 : 619-627, 2004

178 Gwag JG, "Characterization ofnew microsatellite markers in mung bean, Vigna radiata (L.)" 6 : 1132-1134, 2006

179 Pooler MR, "Characterization and classificationof isozyme and morphological variation in a diverse collectionof garlic clones" 68 : 121-130, 1993

180 Fritsch RM, "Chapter 1: Evolution,Domestication, and Taxonomy, In . Allium Crop Science: Recent Advances" CABI Publishing 19-, 2002

181 Just BJ, "Carotenoid biosynthesis structural genes in carrot(Daucus carota): isolation, sequence-characterization, singlenucleotide polymorphism (SNP) markers and genome mapping" 114 : 693-704, 2007

182 Rao AM, "Callusinduction and high-frequency plant-regeneration in Italian millet(Setaria-Italica)" 7 : 557-559, 1988

183 Mccallum J, "Assessment of genetic diversityin bulb onion (Allium cepa L.) using simple sequence repeatmarkers"

184 곽재균, "Assessment of genetic diversity and population structure in mungbean" 한국유전학회 32 (32): 299-308, 2010

185 Banni K, "Assessing genetic diversity,population structure and gene flow in the Korean red bean [Vignaangularis (Willd.) Ohwi & Ohashi] using SSR markers" 10 : 74-82, 2012

186 Rafalski A, "Applications of single nucleotide polymorphismsin crop genetics" 5 : 94-100, 2002

187 Godwin ID, "Application of intersimple sequence repeat (ISSR) markers to plant genetics" 18 : 1524-1528, 1997

188 Ritter A, "Aplicación de la biotecnología a la mejora genéticade la patata" 8-, 2000

189 Shirasawa K, "Aninterspecific linkage map of SSR and intronic polymorphismmarkers in tomato" 121 : 731-739, 2010

190 Haanstra JPW, "Anintegrated high density RFLP-AFLP map of tomato based on twoLycopersicon esculentum X L. pennellii F2 populations" 99 : 254-271, 1999

191 Furini A, "Analysis of eggplant (Solanum melongena)-related germplasm: morphological and AFLP data contributeto phylogenetic interpretations and germplasm utilization" 108 : 197-208, 2004

192 Chen F, "Analysis of Diversity in Chinese Cultivated Barley with SimpleSequence Repeats: Differences Between Eco-GeographicPopulations" 48 : 44-56, 2010

193 Semagn K, "An overview ofmolecular marker methods for plants" 5 : 2540-2568, 2006

194 Kang BC, "An interspecific (Capsicum annuum x C. chinese)F2linkage map in pepper using RFLP and AFLP markers" 102 : 531-539, 2001

195 Koenig RL, "Allozyme diversity in wild Phaseolusvulgaris: further evidence for two major centers of geneticdiversity" 78 : 809-817, 1989

196 Weber JL, "Abundant class of human DNA polymorphismswhich can be typed using the polymerase chainreaction" 44 : 388-396, 1989

197 Straadt IK, "AFLP analysis of Solanumphureja DNA introgressed into potato dihaploids" 122 : 352-356, 2003

198 Kuhl JC, "A unique set of 11,008 onion expressed sequence tags revealsexpressed sequence and genomic differences between the monocotorders asparagales and poales" 16 : 114-125, 2004

199 Han OK, "A genetic linkage map for azuki bean" 111 : 1278-1287, 2005

200 BartošJ, "A firstsurvey of the rye (Secale cereale) genome composition throughBAC end sequencing of the short arm of chromosome 1R" 8 : 95-, 2008

201 Huh JH, "A candidate gene approach identified phytoene synthaseas the locus for mature fruit color in red pepper (Capsicumspp.)" 102 : 524-530, 2001

202 Elshire RJ, "A Robust, SimpleGenotyping-by-Sequencing (GBS) Approach for High DiversitySpecies" 6 : e19379-, 2011

203 Abdellaoui R, "2010genetic diversity in some tunisian barley landraces based on rapdmarkers" 42 : 3775-3782, 2010