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Evaluation of Genetic Diversity of Azerbaijani Grape Varieties (Vitis ssp.) by Using ISSR Markers
Ruhangiz Mammadova, Vugar Salimov, Shader Alizade, Nurlan Amrahov
Plant Breed. Biotech. 2025;13:167-175.
Published online September 1, 2025
DOI: https://doi.org/10.9787/PBB.2025.13.167

Genetic diversity among 20 Azerbaijani grape (Vitis vinifera L.) accessions was assessed using 10 Inter-Simple Sequence Repeat (ISSR) markers to elucidate relationships among samples and identify a convenient marker for determining genetic diversity. Based on the polymorphic information parameters such as PIC, EMR, MI, and RP were critically analyzed for utilizing these ISSR primers for genetic variability and 4 ISSR (UBC 811, UBC 812, UBC 815, UBC 857) markers were selected for future germplasm management. The total number of identified bands varied between 2-5. The maximum PIC value was observed in UBC 857 (0.478). Among genotypes, Ag oval kishmish and Yumru kishmish cultivars had the closest genetic similarity index (0.913), while Ag oval kishmish and Marandi, Yerli Muskat and Yabani uzum 1, Yerli Muskat and Yumru kishmish cultivars had the most distant genetic similarity index (0.406). These findings highlight both the complexity of grapevine genetic structure and the value of ISSR markers for detecting non-obvious relationships.

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Research Articles
Genetic Diversity Analysis and DNA Fingerprinting of Bread Wheat (Triticum Aestivum L.) Cultivars in Uzbekistan Using SSR Markers
Jurabek K. Norbekov, Naim N. Khusenov, Ilkhom B. Salokhutdinov, Ilyos S. Normamatov, Umid A. Boykobilov, Ravshan I. Muxammadaliyev, Maftuna M. Kholmuradova, Abdusalom Kh. Makamov, Ozod S. Turaev, Dilrabo K. Ernazarova, Fakhriddin N. Kushanov, Zabardast T. Buriev
Plant Breed. Biotech. 2024;12:193-209.   Published online December 24, 2024
DOI: https://doi.org/10.9787/PBB.2024.12.193

Bread wheat (Triticum aestivum L.) is a fundamental crop worldwide, playing a crucial role in ensuring food security for human beings. Understanding the genetic diversity of wheat cultivars and developing genetic passports through DNA fingerprinting is essential for preventing varietal duplication enhancing breeding diversity and protecting breeders' rights globally. This study investigated the genetic diversity, phylogenetic relationships, and allelic frequencies of 32 Uzbekistan bread wheat cultivars using 66 polymorphic simple sequence repeat (SSR) markers. Unique marker alleles were identified and used to develop genetic passports for the cultivars. The results showed that the primers Barc181, Wmc522, Wmc407, Wms18, Cfa2201, Wms294, Cfd76, Wmc73, Wmc486, Cfa220, Wmc314, And Wms495 are reliable SSR markers for assessing genetic polymorphism in Uzbek wheat cultivars.

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  • Genetic analysis of fusarium wilt resistance in Upland cotton germplasm ( Gossypium hirsutum L.)
    Naim N. Khusenov, Jurabek K. Norbekov, Umid A. Boykobilov, Zebo S. Yuldosheva, Ilyos S. Normamatov, Abdusalom Kh. Makamov, Mirzakamol S. Ayubov, Mukhtor M. Darmanov, Akmal M. Asrorov, Zabardast T. Buriev, Maftuna U. Makhmudova, Ozod S. Turaev, John Z. Yu,
    Journal of Plant Interactions.2025;[Epub]     CrossRef
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Assessment of Genetic Relationship among Rhynchostylis Species based on Inter-Simple Sequence Repeat (ISSR) Markers
Juthaporn Saengprajak, Jirapa Phetsom, Aphidech Sangdee, Porntip Atichart, Sununta Chuncher, Piyada Theerakulpisut, Arnusorn Saengprajak, Sudarat Thanonkaew
Plant Breed. Biotech. 2024;12:69-81.   Published online July 17, 2024
DOI: https://doi.org/10.9787/PBB.2024.12.69

The genus Rhynchostylis contains important commercial orchids in Thailand with high diversity, but limited information is available regarding the genetic diversity of these orchids. Rhynchostylis has a short blooming period, which makes more difficult to distinguish between variations based only on their appearances. This study evaluated the genetic variation among six accessions of Rhynchostylis, along with one Vanda and one Aerides accession collected from different locations in the northeast of Thailand using 16 polymorphic inter-simple sequence repeat (ISSR) markers. The ISSR markers comprised 83 alleles with sizes ranging from 208 to 1,223 bp. The average number of alleles per locus was 5.19, with a standard deviation of 3.49. The average percentage of polymorphic bands was 95.21%. Polymorphism information content (PIC) values ranged between 0.05 and 0.44, with a mean average of 0.21. The calculated genetic similarity coefficients ranged from 0.383 to 0.914, suggesting a high level of genetic diversity among all the samples. UPGMA dendrograms were created using genetic similarity coefficients and divided into three main clusters. Cluster I contained four closely related R. gigantea orchids. Cluster II comprised two accessions, R. gigantea var. vivaphandhul and V. coelestis, while Cluster III contained two accessions of R. retusa and A. houlettiana. Based on ISSR data, the genetic similarities among the 8 orchid accessions do not correlate with flower color phenotypes and sampling locations, except for Cluster I. The results suggest that ISSR markers can effectively assess the genetic information of both wild and cultivated orchid resources. This study provides useful information for further development of novel markers specific to orchid varieties and for assisting the success of orchid breeding programs through the selection of parent plants.

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  • Phylogenetic relationship based on DNA barcodes and comparative analysis of phytochemical contents among Rhynchostylis orchids in Thailand
    Juthaporn Saengprajak, Jirapa Phetsom, Aphidech Sangdee, Arnusorn Saengprajak, Thanwanit Thanyasiriwat, Wuttipong Mahakham
    Scientific Reports.2026;[Epub]     CrossRef
  • Development of ISSR-derived SCAR markers for precise identification and conservation of Rhynchostylis gigantea and its variety rubrum in Thailand
    Juthaporn Saengprajak, Thanwanit Thanyasiriwat, Arnusorn Saengprajak, Aphidech Sangdee
    South African Journal of Botany.2026; 189: 551.     CrossRef
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Genetic Purity Analysis Using Polymorphic SSR Markers in Rice Genotypes (Oryza sativa L.) and Their Confirmation for the Parental Lines
Afifuddin Latif Adiredjo, Noer Rahmi Ardiarini, Damanhuri
Plant Breed. Biotech. 2023;11(3):220-224.   Published online September 1, 2023
DOI: https://doi.org/10.9787/PBB.2023.11.3.220

The purity of seeds can be identified from the traits inherited from their parental lines. Hence, contamination may occur at the crossing step due to unshared similarities with their parents. This research aims to measure the genetic purity of several genotypes obtained from crosses between upland and lowland rice through the banding pattern differences among the genotype samples by using Simple Sequence Repeats (SSR) markers. Taking the leaf samples was carried out at the experimental field, while the marker analysis was conducted in the Plant Biotechnology Laboratory. In this research, 8 (eight) genotypes obtained from crossing, comprising F1, F2, and BC1 along with 4 (four) of their parents from upland rice and lowland rice, were tested using 6 (six) drought-specific SSR primers of RM5, RM211, RM232, RM249, RM255, and RM258. The banding pattern of the electrophoresis results on the 12 rice genotypes showed clear, unsmeared quality. Based on the results of distance and genetic similarities, the 12 genotypes could be classified into 4 (four) clusters in the dendrogram. Cluster I consists of the Situ Bagendit and BC1 TWCH varieties, Cluster II the Towuti variety, Cluster III the Ciherang, Cibogo, F1 SBCH, F1 SBCB, and F1 TWCH varieties, and Cluster IV the F2 SBCH, F2 TWCH, F2 SBCB, and BC1 SBCH varieties.

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  • Introgressing photoperiod/thermo-sensitive genic male sterile gene into Basmati 370 rice
    Beatrice Nyarangi Nyankemba, Edith Esther Arunga, Paul Njiruh Nthakanio
    Journal of Experimental Biology and Agricultural Sciences.2024; 12(5): 756.     CrossRef
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Association Study for Drought Tolerance of Flint Maize Inbred Lines Using SSR Markers
Kyu Jin Sa, Hyeon Park, Zhenyu Fu, So Jung Jang, Ju-Kyong Lee
Plant Breed. Biotech. 2022;10(4):257-271.   Published online December 1, 2022
DOI: https://doi.org/10.9787/PBB.2022.10.4.257

Drought tolerance is derived from complex quantitative traits that are associated with different shoot and root morphological characters. This study assessed the genetic and phenotypic variation of 12 maize inbred lines and performed association analysis of 11 drought-related traits using 360 simple sequence repeats (SSRs), detecting 1,604 alleles, with an average of 4.4 alleles per locus. The average values of gene diversity (GD) and polymorphism information content (PIC) were 0.648 and 0.598, respectively. In principal component analysis (PCA), shoot fresh weight (SFW), shoot dry weight (SDW), stem weight (SW), leaf weight (LW), root fresh weight (RFW), root dry weight (RDW), and leaf area (LA) traits contributed greatly to the PCA. Association analysis was performed using a general linear model with a Q-matrix (Q GLM) and a mixed linear model with Q and K-matrices (Q + K MLM). Twelve SSR markers for drought tolerance trait were detected by Q GLM, and all maize inbred lines were clearly divided into two groups in accordance with their drought tolerance. Duplicated significant marker-trait associations (SMTAs) between Q GLM and Q + K MLM identified eight marker-trait associations involving four SSR markers that were associated with the traits of SW, SFW, RFW, and RDW with a significant level of P < 0.05. The umc1175 and umc2092 were associated with SW and SFW; umc1503 was associated with RFW, SFW, and SW; and umc2341 was associated with RDW. The detection of loci associated with drought-related traits in this study may provide better opportunities to improve maize drought tolerance by marker-assisted selection (MAS).

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  • Using Flint Maize for Developing New Hybrids: A Case Study in Romania
    Roxana Elena Călugăr, Andrei Varga, Carmen Daniela Vana, Loredana Ancuța Ceclan, Felicia Chețan, Andras Fodor, Nicolae Tritean
    Agronomy.2025; 15(9): 2215.     CrossRef
  • Leveraging Multiomics Insights and Exploiting Wild Relatives’ Potential for Drought and Heat Tolerance in Maize
    Shakra Jamil, Shakeel Ahmad, Rahil Shahzad, Noroza Umer, Shamsa Kanwal, Hafiz Mamoon Rehman, Iqrar Ahmad Rana, Rana Muhammad Atif
    Journal of Agricultural and Food Chemistry.2024; 72(29): 16048.     CrossRef
  • Association Mapping for Evaluation of Population Structure, Genetic Diversity, and Physiochemical Traits in Drought-Stressed Maize Germplasm Using SSR Markers
    Muhammad Zahaib Ilyas, Hyeon Park, So Jung Jang, Jungeun Cho, Kyu Jin Sa, Ju Kyong Lee
    Plants.2023; 12(24): 4092.     CrossRef
  • Uncovering microsatellite markers associated with agronomic traits of South Sudan landrace maize
    Emmanuel Andrea Mathiang, Hyeon Park, So Jung Jang, Jungeun Cho, Tae Hyeon Heo, Ju Kyong Lee
    Genes & Genomics.2023; 45(12): 1587.     CrossRef
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Diversity Analysis of Bangladeshi Coastal Rice Landraces (Oryza sativa) for Morpho-Physiological and Molecular Markers’ Responses to Seedling Salinity Tolerance
Hafsa Sultana, Uzzal Somaddar, Swadesh Chandra Samanta, Abul Kashem Chowdhury, Gopal Saha
Plant Breed. Biotech. 2022;10(2):115-127.   Published online June 1, 2022
DOI: https://doi.org/10.9787/PBB.2022.10.2.115

Development of salt tolerance in rice through breeding program is mainly depends on the salinity responses of the potential rice germplasms. Coastal rice landraces of Bangladesh possess diverse morphological and physiological responses to salinity. Hence, our target is to identify candidate salt-tolerant coastal rice genotypes as a new source of salt tolerance (12 dS/m). Here, we annotated 20 Bangladeshi coastal Aus landrace rice regarding their phenotypic and genetic relatedness to salinity tolerance through multivariate analyses of five morpho-physiological traits namely, salt injury score (SIS), ion-leakage, chlorophyll concentration, root-shoot reduction percentage and profiling of DNA using simple sequence repeat (SSR). Based on the standard evaluation score (SES) the salt-induced coastal rice landraces were grouped into highly susceptible (HS), susceptible (S), moderately tolerant (MT), tolerant (T) and highly tolerant (HT). Besides, a canonical discrimination analysis of the mean trait values of five morpho-physiological parameters confirmed the above mentioned five categories of salinity tolerance. Based on all morpho-physiological parameters one genotype (Kalihytta) as highly tolerant (HT), two genotypes (Manikmuri and Monsur IRRI) as tolerant (T) and five genotypes (Nara, Iratom 27, Matichak, Abdul high IRRI and Parija) were identified as moderately tolerant (MT) against salinity. Finally, the molecular characterization using two SSR markers (RM493 and RM3412) revealed Kalihytta, Nara, Iratom 27, Parija, Lal jamaibabu and Fullbadam, as tolerant against salt stress. Our candidate salt tolerant Aus rice genotypes could be useful as novel sources of salt tolerance for thriving salt-tolerant high yielding varieties in the coastal ecosystem of Bangladesh.

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  • Marker-assisted breeding accelerates the development of multiple-stress-tolerant rice genotypes adapted to wider environments
    Vignesh Mohanavel, Valarmathi Muthu, Rohit Kambale, Rakshana Palaniswamy, Prisca Seeli, Bharathi Ayyenar, Veeraranjani Rajagopalan, Sudha Manickam, Raghu Rajasekaran, Hifzur Rahman, Jagadeeshselvam Nallathambi, Manonmani Swaminathan, Gopalakrishnan Chella
    Frontiers in Plant Science.2024;[Epub]     CrossRef
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Genetic Diversity Analysis and Molecular Screening for Salinity Tolerance in Wheat Germplasm
Muhammad Abdul Hannan, Nihar Ranjan Saha, Swapan Kumar Roy, Sun-Hee Woo, Muhammad Shahidul Haque
Plant Breed. Biotech. 2021;9(3):185-198.   Published online September 1, 2021
DOI: https://doi.org/10.9787/PBB.2021.9.3.185

Salinity is the most significant constraint to wheat cultivation in the salinity-affected areas. Saline-prone soils can be brought under cultivation by the development of salt-tolerant lines through molecular breeding aided by diversity analysis and molecular screening. The study aimed to screen for salinity tolerance and elucidate the extent of diversity among 75 wheat varieties and accessions. This molecular analysis and detection used 21 linked SSR markers. The study identified 202 alleles in 75 genotypes of wheat, giving 9.6 alleles on an average for salt tolerance screening. The mean polymorphism information content (PIC) of 0.7599 and the Nei’s (1973) gene diversity of 0.7856 were recorded. The accessions possess higher gene diversity and PIC than the cultivars. The average genetic similarity matrix coefficient was 0.60 within the range of 0.19 and 1.00. Similarity indices based UPGMA cluster analysis separated the 75 germplasm into six clusters. Eight genotypes grouped in sub-cluster Ib together with the positive control BINA Gom-1. Therefore, these eight genotypes were identified as potential salt-tolerant by molecular analysis using SSR markers linked to salinity. The gene diversity estimated, and the germplasm identified as potential salt-tolerant are promising for use in wheat breeding to incorporate salt tolerance in novel cultivars by marker-assisted breeding.

Citations

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  • Correlation of Root System Architecture at Early Seedling Stage and Coleoptile Length and Grain Properties of Korean Wheat Cultivars
    Kyeong-Min Kim, Sumin Hong, Myung-Goo Choi, Changhyun Choi, Myoung Hui Lee, Mira Yoon, Chon-Sik Kang, Ki-Chang Jang, Youngjun Mo, Chul Soo Park
    Korean Journal of Breeding Science.2024; 56(2): 113.     CrossRef
  • Evaluation of Cold Resistance at Seedling Stage for 70 Peanut Genotypes Based on Photosynthetic Fluorescence Characteristics
    Linmei Ye, Tao Wang, Renye Wu, Conghui Zheng, Liuqi Zhan, Jianhong Chen, Shengyao Guo, Yongkuai Chen
    Agronomy.2024; 14(8): 1699.     CrossRef
  • Microsatellite marker-based genetic diversity assessment among exotic and native maize inbred lines of Bangladesh
    Md. Amraul Islam, Md. Shahidul Alam, Md. Maniruzzaman, Muhammad Shahidul Haque
    Saudi Journal of Biological Sciences.2023; 30(8): 103715.     CrossRef
  • Research Advances in Diversity of Wheat Genetic Resources
    Do Yoon Hyun, Jae Yoon Kim
    Korean Journal of Breeding Science.2023; 55(4): 350.     CrossRef
  • Screening of salt-tolerant wheat (Triticum aestivum L.) through morphological and molecular markers
    Md. Hasanuzzaman, Nihar Ranjan Saha, Sayma Farabi, Md. Tahjib-Ul-Arif, Sabina Yasmin, Muhammad Shahidul Haque
    Cereal Research Communications.2023; 51(1): 87.     CrossRef
  • Effects of Exogenous Calcium on Adaptive Growth, Photosynthesis, Ion Homeostasis and Phenolics of Gleditsia sinensis Lam. Plants under Salt Stress
    Yun Guo, Yang Liu, Yan Zhang, Jia Liu, Zarmina Gul, Xiao-Rui Guo, Ann Abozeid, Zhong-Hua Tang
    Agriculture.2021; 11(10): 978.     CrossRef
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Assessment of Genetic Diversity in Durum and Bread Wheat Genotypes Based on Drought Tolerance and SSR Markers
Mahmoud A. El-Rawy, Mohamed I. Hassan
Plant Breed. Biotech. 2021;9(2):89-103.   Published online June 1, 2021
DOI: https://doi.org/10.9787/PBB.2021.9.2.89

Six durum and twelve bread wheat genotypes were evaluated under favorable and drought-stressed field conditions, and screened with thirty simple sequence repeats (SSR) markers. The traits studied were stomata frequency (STF), relative water content (RWC), flag leaf area (FLA), flag leaf weight (FLW), flag leaf dry matter content (FLD), chlorophyll a content (Chl.a), chlorophyll b content (Chl.b), grain yield/plant (GYP) and 1000-kerenl weight (TKW). Highly significant differences were observed among wheat genotypes for all the traits, indicating considerable genetic variation. Moderate to high broad-sense heritability estimates were observed for the studied traits. Under drought stress, GYP was positively correlated with RWC, FLA, FLW and TKW, whereas negatively correlated with STF. G3 (Svevo) and G6 (WK-12-1) were the most drought-tolerant durum wheat, whereas G11 (L.S-15) and G16 (SIDS-1) were the most drought-tolerant bread wheat genotypes. SSR markers analysis indicated considerable genetic variation between and within durum and bread wheat genotypes. The percentage of polymorphism ranged from 14.3% (Xgwm174-5D) to 100% (Xgwm294-2A and Xgwm573-7B), with an average of 61.4%. The polymorphism information content (PIC) ranged from 0.20 (Xwmc596-7A) to 0.48 (Xgwm294-2A), with an average of 0.33.The highest polymorphism (77.1%) was observed in the B genome followed by A (57.8%) and D (50.0%) genomes. Cluster analysis based on phenotypic data distinguished the most drought-tolerant genotypes (G6 and G11) from the remaining genotypes. Cluster analysis based on SSR markers distinguished durum from bread wheat genotypes. The study indicated that phenotypic data and SSR markers were effective in assessing the genetic diversity in the studied genotypes.

Citations

Citations to this article as recorded by  
  • Revealing Genetic Diversity and Drought Tolerance in Durum Wheat through Agro-Physiological and Molecular Approaches
    Ferhat Kızılgeçi, Aras Türkoğlu, Kamil Haliloğlu, Seval Eliş, Büşra Polat, Gaye Akçelik, Mehmet Yıldırım, Fatih Demirel, Jan Bocianowski
    Turkish Journal Of Field Crops.2026;[Epub]     CrossRef
  • Gene markers generating polygenic resistance in wheat - Bipolaris sorokiniana interaction pathosystem
    Fatemeh Qalavand, Mehdi Nasr Esfahani, Davood Amin Azarm, Maryam Monazzah, Marzie Motamedi, Niloufar Abbasi, Arman Nasr Esfahani, Mojtaba Mohammadi
    South African Journal of Botany.2025; 185: 182.     CrossRef
  • Molecular marker based analysis of allelic variation in the spring wheat genome
    Hafiz Ghulam Muhu Din Ahmed, Tao Yang, Muhammad Irfan Akram, Rashid Iqbal, Abdullah Ahmed Al-Ghamdi, Dunia A. Al Farraj
    Genetic Resources and Crop Evolution.2025; 72(5): 5393.     CrossRef
  • Genetic diversity of some bread wheat genotypes under water stress using morphological traits and SSR markers
    S.E Abd.Salam, E.E. Hassn, A.A. Hassan, Mohamed Abdelghany
    South African Journal of Botany.2025; 178: 360.     CrossRef
  • Genetic diversity analysis of Azerbaijani bread wheat (Triticum aestivum L.) genotypes with simple sequence repeat markers linked to drought tolerance
    Ruhangiz Mammadova, Zeynal Akparov, Ahmad Amri, Allah Bakhsh, Fida Alo, Shader Alizade, Nurlan Amrahov, Firuza Yunisova
    Genetic Resources and Crop Evolution.2025; 72(1): 315.     CrossRef
  • Association mapping for Striga resistance and agronomic‐related traits in sorghum
    Wilbert T. Mutezo, Moosa M. Sedibe, Justice Norvienyeku, Bingting Lai
    The Plant Genome.2025;[Epub]     CrossRef
  • Biochemical characteristics of bread wheat genotypes related to SSR markers in moisture stress conditions
    Fatemeh Bavandpouri, Ezatollah Farshadfar, Kianoosh Cheghamirza, Mohsen Farshadfar
    Genetic Resources.2025; 6(12): 171.     CrossRef
  • Agronomic and Molecular Identification of Drought-Tolerant Bread Wheat Varieties in Iran
    Arezoo Karkhaneh, Hooman Salari, Kianoosh Cheghamirza, Leila Zarei
    Journal of Plant Growth Regulation.2025; 44(6): 3039.     CrossRef
  • Multivariate Analysis Techniques and Tolerance Indices for Detecting Bread Wheat Genotypes of Drought Tolerance
    Ibrahim Al-Ashkar
    Diversity.2024; 16(8): 489.     CrossRef
  • Combining Genetic and Phenotypic Analyses for Detecting Bread Wheat Genotypes of Drought Tolerance through Multivariate Analysis Techniques
    Mohammed Sallam, Abdelhalim Ghazy, Abdullah Al-Doss, Ibrahim Al-Ashkar
    Life.2024; 14(2): 183.     CrossRef
  • Assessing Heat Stress Tolerance of Wheat Genotypes through Integrated Molecular and Physio-Biochemical Analyses
    Mohammed Sallam, Ibrahim Al-Ashkar, Abdullah Al-Doss, Khalid A. Al-Gaadi, Ahmed M. Zeyada, Abdelhalim Ghazy
    Agronomy.2024; 14(9): 1999.     CrossRef
  • Assessment of genetic variation among wheat genotypes for drought tolerance utilizing microsatellite markers and morpho-physiological characteristics
    Sheikh Faruk Ahmed, Jalal Uddin Ahmed, Mehfuz Hasan, Mohammed Mohi-Ud-Din
    Heliyon.2023; 9(11): e21629.     CrossRef
  • Molecular cytological analysis of alien introgressions in common wheat lines created by crossing of Triticum aestivum with T. dicoccoides and T. dicoccum
    О. A. Orlovskaya, I. N. Leonova, L. A. Solovey, N. I. Dubovets
    Vavilov Journal of Genetics and Breeding.2023; 27(6): 553.     CrossRef
  • Research Advances in Diversity of Wheat Genetic Resources
    Do Yoon Hyun, Jae Yoon Kim
    Korean Journal of Breeding Science.2023; 55(4): 350.     CrossRef
  • Assessment of Genetic Diversity of Bread Wheat Genotypes for Drought Tolerance Using Canopy Reflectance-Based Phenotyping and SSR Marker-Based Genotyping
    Mohammed Mohi-Ud-Din, Md. Alamgir Hossain, Md. Motiar Rohman, Md. Nesar Uddin, Md. Sabibul Haque, Eldessoky S. Dessoky, Mohammed Alqurashi, Salman Aloufi
    Sustainability.2022; 14(16): 9818.     CrossRef
  • Enzyme activity and population genetic structure analysis in wheat associated with resistance to Bipolaris sorokiniana-common root rot diseases
    Fatemeh Qalavand, Mehdi Nasr Esfahani, Jafar Vatandoost, Davood Amin Azarm
    Phytochemistry.2022; 200: 113208.     CrossRef
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Phenotypic and Molecular Marker Based Screening of Coastal Rice Landraces under Salt Stress
Md, Faridul Islam, Nasar Uddin Ahmed, Gopal Saha
Plant Breed. Biotech. 2020;8(3):238-251.   Published online September 1, 2020
DOI: https://doi.org/10.9787/PBB.2020.8.3.238

Traditional rice landraces of coastal areas in Bangladesh are distinct in respect to their phenotypes, responses to salt stress and yield attributes. In characterization of coastal rice landraces, 46 rice genotypes were tested for salt tolerance at their seedling and reproductive growth stages. Through the cluster analysis following standard evaluation score (SES), genotypes were divided into five categories (highly susceptible, susceptible, moderately tolerant, tolerant and highly tolerant) at their seedling stage. Three coastal genotypes, viz. chorbindi, joyni and kedgrangal mota, were grouped as highly saline tolerant at their seedling stage. In studying reproductive stage salinity screening, based on mean score values obtained from different morphological and yield parameters (plant height, number of effective tillers/hill, number of filled grains, panicle length, 100-grain weight, and straw dry weight), kutiakon and kajolshail were identified as the salinity tolerant landraces while tulsimala, dudhkalom, birindi, bushihara, lalmota, chorboleshor, lalchikon and bashful chikon were found as moderately tolerant to salinity. Finally, the molecular characterization using two simple sequence repeat (SSR) markers, viz., RM493 and RM3412 revealed holde mota, dingamoni, kedgrangal mota, sada mota, laxmima, dishari, lal chikon, kalijira, kalo khaya, khaioz, chorbindi, kajolshail, kutiakon, bamonkhir, dudhmora, sakhorkhora, mota dhan, and sorbimaloti as tolerant landraces. These identified salt-tolerant landraces can be used as promising germplasm resources for breeding salt-tolerant high-yielding rice varieties in the future.

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  • Diversity Analysis of Bangladeshi Coastal Rice Landraces (Oryza sativa) for Morpho-Physiological and Molecular Markers' Responses to Seedling Salinity Tolerance
    Hafsa Sultana, Uzzal Somaddar, Swadesh Chandra Samanta, Abul Kashem Chowdhury, Gopal Saha
    Plant Breeding and Biotechnology.2022; 10(2): 115.     CrossRef
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Genetic Variation of Common Millet (Panicum miliaceum L.) Collected from East Asia Based on Simple Sequence Repeats (SSRs)
Sang-Yun Han, Kyu Jin Sa, Ju Kyong Lee
Plant Breed. Biotech. 2020;8(2):186-195.   Published online June 1, 2020
DOI: https://doi.org/10.9787/PBB.2020.8.2.186

This study was conducted to evaluate the genetic variation for 75 accessions of common millet collected from Korea, Japan, and China. Genetic diversity analysis was performed on 75 accessions from Korea, Japan, and China using 9 SSR primers. A total of 30 alleles was identified with an average of 3.33 alleles per locus. The GD values measured in these groups ranged from 0.127 to 0.377 with an average of 0.266. The PIC values ranged from 0.124-0.347 with an average of 0.245. The Chinese common millet accessions showed higher genetic diversity than the Korean and Japanese accessions. From the analysis of population structure using the software program STRUCTURE 2.2, the 75 common millet accessions divided into two groups because the highest value of ΔK values was revealed for K = 2. Group I included 40 Korean accessions, and Group II included 14 Korean accessions, 12 Japanese accessions, and 9 Chinese accessions. The UPGMA phylogenetic tree revealed that the 75 common millet accessions were clustered into three major groups. The clustering patterns did not permit any clear distinction of the accessions of common millet collected in East Asia. The results of genetic diversity, genetic relationships, and population structure in the 75 common millet accessions from Korea, Japan, and China identified in this study will provide useful information for the development of common millet breeding lines and breeding programs and also genetic resource conservation strategies in Korea.

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  • Development of iron and zinc transporter based genic SSR markers in foxtail millet and their cross- genera transferability in little millet
    Kumari Anjani, Kaushal Kumar, V. K. Sharma
    Cereal Research Communications.2026; 54(2): 875.     CrossRef
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Characterization of Chloroplast Genomes, Nuclear Ribosomal DNAs, and Polymorphic SSR Markers Using Whole Genome Sequences of Two Euonymus hamiltonianus Phenotypes
Junki Lee, Shin-Jae Kang, Hyeonah Shim, Sang-Choon Lee, Nam-Hoon Kim, Woojong Jang, Jee Young Park, Jeong Hwa Kang, Wan Hee Lee, Taek Joo Lee, Gyoungju Nah, Tae-Jin Yang
Plant Breed. Biotech. 2019;7(1):50-61.   Published online March 1, 2019
DOI: https://doi.org/10.9787/PBB.2019.7.1.50

Although genomics provides useful tools for crops, most wild resource plants still lack molecular data. To retrieve useful genomic data and thus provide fundamental information for a resource plant, we established a multi-directional approach using two low coverage whole-genome shotgun sequence (WGS) data of Euonymus hamiltonianus, which is a wild resource plant with potential as a medicinal and ornamental plant. We assembled complete chloroplast genome and nuclear ribosomal DNA (nrDNA) sequences and analyzed polymorphic simple sequence repeats (pSSRs) in the nuclear genome based on the comparison of WGS data between two different phenotypes. We developed a bioinformatics pipeline to identify pSSR motifs by systematic comparison of two WGS datasets. The pipeline is composed of multiple steps including end-joining of paired reads, isolation of joined reads harboring SSR motifs derived from unique non-repetitive regions, identification of pSSR via in silico comparison with counterpart WGS reads, design of pSSR primer sets, and validation. The pipeline was applied to WGS data of E. hamiltonianus and identified 161 contigs with pSSR motifs between the two different phenotypes. Based on the pSSR motifs, 20 primer pairs were designed, of which seven were successfully validated as real pSSR markers. We expect this information to be applicable to genomic resources of E. hamiltonianus.

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  • A First Approach for the In Vitro Cultivation, Storage, and DNA Barcoding of the Endangered Endemic Species Euonymus koopmannii
    Balnur Kali, Sara Bekkuzhina, Dilnur Tussipkan, Shuga Manabayeva
    Plants.2024; 13(16): 2174.     CrossRef
  • High-throughput discovery of plastid genes causing albino phenotypes in ornamental chimeric plants
    Hyun-Seung Park, Jae-Hyeon Jeon, Woohyeon Cho, Yeonjeong Lee, Jee Young Park, Jiseok Kim, Young Sang Park, Hyun Jo Koo, Jung Hwa Kang, Taek Joo Lee, Sang Hoon Kim, Jin-Baek Kim, Hae-Yun Kwon, Suk-Hwan Kim, Nam-Chon Paek, Geupil Jang, Jeong-Yong Suh, Tae-J
    Horticulture Research.2023;[Epub]     CrossRef
  • Analysis of the complete plastomes and nuclear ribosomal DNAs from Euonymus hamiltonianus and its relatives sheds light on their diversity and evolution
    Young Sang Park, Jong-Soo Kang, Jee Young Park, Hyeonah Shim, Hyun Ok Yang, Jung Hwa Kang, Tae-Jin Yang, Sudhindra R. Gadagkar
    PLOS ONE.2022; 17(10): e0275590.     CrossRef
  • Comparative Analyses of Euonymus Chloroplast Genomes: Genetic Structure, Screening for Loci With Suitable Polymorphism, Positive Selection Genes, and Phylogenetic Relationships Within Celastrineae
    Yongtan Li, Yan Dong, Yichao Liu, Xiaoyue Yu, Minsheng Yang, Yinran Huang
    Frontiers in Plant Science.2021;[Epub]     CrossRef
  • De Novo Assembly and Species-Specific Marker Development as a Useful Tool for the Identification of Scutellaria L. Species
    Hakjoon Choi, Wan Seok Kang, Jin Seok Kim, Chang-Su Na, Sunoh Kim
    Current Issues in Molecular Biology.2021; 43(3): 2177.     CrossRef
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Study of Transferability of Rubus Microsatellite Markers to Hybrid Boysenberry
Jaihyunk Ryu, Woon Ji Kim, Juhyun Im, Sang Hun Kim, Seung Cheol Oh, Lan Cho, Si-Yong Kang, Bo-Keun Ha
Plant Breed. Biotech. 2017;5(4):253-260.   Published online December 1, 2017
DOI: https://doi.org/10.9787/PBB.2017.5.4.253

Boysenberry, a Rubus hybrid between loganberry and a trailing blackberry, possesses distinctive polyphenol compounds, which have demonstrated positive biological effects on human health. Several new boysenberry genotypes have recently been developed from mutation breeding technology. In this study, a total of 103 SSR markers developed from expressed sequence tag (EST) and genomic libraries in blackberry and red raspberry were tested for cross-amplifications in 10 boysenberry genotypes. All primer pairs successfully produced amplification products, ranging from 1 to 4 loci per primer. Eleven polymorphic SSR markers (RH_MEa0007aB01, RH_MEa12cE03, RH_MEa14bF07, RH_MEa15aD04, RH_MEa13cF08, ERubLR_SQ01_N03, ERubLR_SQ053_H01, ERubLR_SQ191_A05, RubfruitG7, Rubusr43a, and RiM019) were detected among boysenberry genotypes, while polymorphic loci were not detected in 92 markers. Polymorphism information content (PIC) and genetic diversity (GD) values ranged from 0.160 to 0.580 and from 180 to 0.640, with average values of 0.359 and 0.407, respectively, in the 11 polymorphic markers. According to a cluster analysis, all the mutant boysenberry genotypes can be classified into one category. Although the level of genetic diversity revealed by SSR markers in 10 boysenberry genotypes was low, these SSR markers will be useful for future genetic diversity, cultivar identification, QTL mapping, and gene cloning studies in boysenberry.

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  • Characterization of genetic variation and antioxidant properties in strawberry (Fragaria × ananassa Duch.) mutant genotypes
    Jaihyunk Ryu, Woon Ji Kim, Sang Hun Kim, Kang-Seop Lee, Han-Jig Jo, Ee-Youb Kim, Sang Hoon Kim, Si-Yong Kang, Jeong-Hee Lee, Bo-Keun Ha
    Genetic Resources and Crop Evolution.2020; 67(6): 1457.     CrossRef
  • Single nucleotide polymorphism (SNP) discovery through genotyping-by-sequencing (GBS) and genetic characterization of Dendrobium mutants and cultivars
    Jaihyunk Ryu, Woon Ji Kim, Juhyun Im, Kyung-Won Kang, Sang Hoon Kim, Yeong Deuk Jo, Si-Yong Kang, Jeong-Hee Lee, Bo-Keun Ha
    Scientia Horticulturae.2019; 244: 225.     CrossRef
  • Genotyping-by-sequencing based single nucleotide polymorphisms enabled Kompetitive Allele Specific PCR marker development in mutant Rubus genotypes
    Jaihyunk Ryu, Woon Ji Kim, Juhyun Im, Sang Hun Kim, Kang-Seop Lee, Han-Jig Jo, Ee-Youb Kim, Si-Yong Kang, Jeong-Hee Lee, Bo-Keun Ha
    Electronic Journal of Biotechnology.2018; 35: 57.     CrossRef
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Genetic Diversity and Population Structure of Mongolian Wheat Based on SSR Markers: Implications for Conservation and Management
Narantsetseg Ya, Sebastin Raveendar, N Bayarsukh, Myagmarsuren Ya, Jung-Ro Lee, Kyung-Jun Lee, Myoung-Jae Shin, Gyu-Taek Cho, Kyung-Ho Ma, Gi-An Lee
Plant Breed. Biotech. 2017;5(3):213-220.   Published online September 1, 2017
DOI: https://doi.org/10.9787/PBB.2017.5.3.213

Production of spring wheat, the major crop in Mongolia, accounts for 98% of the cultivated area. Understanding genetic variability in existing gene bank accessions is critical for collection, conservation and use of wheat germplasms. To determine genetic diversity and population structure among a representative collection of Mongolian local wheat cultivars and lines, 200 wheat accessions were analyzed with 15 SSR markers distributed throughout the wheat genome. A total of 85 alleles were detected, with three to five alleles per locus and a mean genetic richness of 5.66. Average genetic diversity index was 0.69, with values ranging from 0.37–0.80. The 200 Mongolian wheat accessions were mainly divided into two subgroups based on structure and phylogenetic analyses, and some phenotypes were divergent by the subgroups. Results from this study will provide valuable information for conservation and sustainable use of Mongolian wheat genetic resources.

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  • The Genetic Diversity of Tunisian Sea Barley (Hordeum marinum ssp. marinum): Insights from Cross-species SSRs
    Warda Saoudi, Wael Taamalli, Mounawer Badri, António Martin, Chedly Abdelly
    Plant Molecular Biology Reporter.2026;[Epub]     CrossRef
  • Harnessing genetic potentials for drought tolerance in wheat (Triticum aestivum L.) using tolerance indices and molecular markers
    Mst. Anamika Amzad, Md. Arifuzzaman, Md. Ashraful Alam
    Gene Reports.2025; 40: 102230.     CrossRef
  • Morphological characterization and molecular diversity assessment of rust resistant genetic stocks of wheat
    Sneha Adhikari, S. C. Bhardwaj, O. P. Gangwar, Pramod Prasad, Charu Lata, Subodh Kumar, Gulab Chand
    Tropical Plant Pathology.2024; 49(4): 525.     CrossRef
  • Structure and genetic diversity of macauba [Acrocomia aculeata (Jacq.) Lodd. ex Mart.] approached by SNP markers to assist breeding strategies
    Bruno Galvêas Laviola, Adriano dos Santos, Erina Vitório Rodrigues, Larissa Pereira Ribeiro Teodoro, Paulo Eduardo Teodoro, Tatiana Barbosa Rosado, Cíntia Gonçalves Guimarães, Léo Duc Haa Carson Schwartzhaupt da Conceição
    Genetic Resources and Crop Evolution.2022; 69(3): 1179.     CrossRef
  • Genetic diversity, population structure and relationship of Ethiopian barley (Hordeum vulgare L.) landraces as revealed by SSR markers
    Allo A. Dido, M. S. R. Krishna, Ermias Assefa, Dawit T. Degefu, B. J. K. Singh, Kassahun Tesfaye
    Journal of Genetics.2022;[Epub]     CrossRef
  • Genetic diversity and population structure in Jatropha (Jatropha curcas L.) based on molecular markers
    Adriana de Souza Carneiro, Adriano dos Santos, Bruno Galvêas Laviola, Larissa Pereira Ribeiro Teodoro, Paulo Eduardo Teodoro, Erina Vitório Rodrigues
    Genetic Resources and Crop Evolution.2022; 69(1): 245.     CrossRef
  • Association analysis for agronomic traits in wheat under terminal heat stress
    Adeel Khan, Munir Ahmad, Mukhtar Ahmed, Kulvinder Singh Gill, Zahid Akram
    Saudi Journal of Biological Sciences.2021; 28(12): 7404.     CrossRef
  • Genetic Diversity and Genome-Wide Association Study of Seed Aspect Ratio Using a High-Density SNP Array in Peanut (Arachis hypogaea L.)
    Kunyan Zou, Ki-Seung Kim, Kipoong Kim, Dongwoo Kang, Yu-Hyeon Park, Hokeun Sun, Bo-Keun Ha, Jungmin Ha, Tae-Hwan Jun
    Genes.2020; 12(1): 2.     CrossRef
  • Population structure of Nepali spring wheat (Triticum aestivum L.) germplasm
    Kamal Khadka, Davoud Torkamaneh, Mina Kaviani, Francois Belzile, Manish N. Raizada, Alireza Navabi
    BMC Plant Biology.2020;[Epub]     CrossRef
  • Development of genomic simple sequence repeat markers for Glycyrrhiza lepidota and cross-amplification of other Glycyrrhiza species
    Jun Hyoung Bang, Chi Eun Hong, Sebastin Raveendar, Kyong Hwan Bang, Kyung Ho Ma, Soon Wook Kwon, Hojin Ryu, Ick Hyun Jo, Jong-Wook Chung
    PeerJ.2019; 7: e7479.     CrossRef
  • Genome-Wide Genetic Diversity and Population Structure of Tunisian Durum Wheat Landraces Based on DArTseq Technology
    Cyrine Robbana, Zakaria Kehel, M’barek Ben Naceur, Carolina Sansaloni, Filippo Bassi, Ahmed Amri
    International Journal of Molecular Sciences.2019; 20(6): 1352.     CrossRef
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    Frontiers in Plant Science.2018;[Epub]     CrossRef
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Development of SSR Markers and Their Use in Studying Genetic Diversity and Population of Finger Millet (Eleusine coracana L. Gaertn.)
Kyung Jun Lee, Mun-Sup Yoon, Myoung-Jae Shin, Jung-Ro Lee, Yang-Hee Cho, Ho-Sun Lee, Kyung-Ho Ma, Gi-An Lee
Plant Breed. Biotech. 2017;5(3):183-191.   Published online September 1, 2017
DOI: https://doi.org/10.9787/PBB.2017.5.3.183

Finger millet (Eleusine coracana L. Gaertn.) is an important cereal crop in eastern Africa and southern India with excellent grain storage capacity and the unique ability to thrive in extreme environmental conditions. In this study, we analyzed the genetic diversity and population structure of finger millet using 12 developed microsatellites. By sequencing 815 clones from an SSR-enriched genomic DNA library, we obtained 12 polymorphic SSR markers, which also revealed successful amplicons in finger millet accessions. Using the developed SSR markers, we estimated genetic diversity and population structure among 76 finger millet accessions in Asia, Africa, and unknown origins. The number of alleles ranged from 2 to 9, with an average of 3.3 alleles. The mean values of observed heterozygosity and expected heterozygosity were 0.27 and 0.35, respectively. The average polymorphism information content was 0.301 in all 76 finger millet accessions. AMOVA analysis showed that the percentage of molecular variance among the populations was 1%, that among individuals was 5%, and that within individuals was 94%. In STRUCTURE analysis, the 76 finger millet accessions were divided into two subpopulations which had an admixture of alleles. There was a correspondence among PCoA, AMOVA, and population structure. This study may form the basis for a finger millet breeding and improvement program.

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  • Integrating path analysis and molecular markers to understand genetic diversity in finger millet, Eleusine coracana (L.) Gaertn.
    Mihir A. Hansalia, Vikas Pali, Amar A. Sakure, Sushil Kumar, Dinesh J. Parmar, Mihir M. Pandya, Dinesh Joshi
    The Nucleus.2026;[Epub]     CrossRef
  • Development of iron and zinc transporter based genic SSR markers in foxtail millet and their cross- genera transferability in little millet
    Kumari Anjani, Kaushal Kumar, V. K. Sharma
    Cereal Research Communications.2026; 54(2): 875.     CrossRef
  • Unlocking Climate Resilience Through Omics in Underutilized Small Millets
    S Muruganantham, Kannabiran Sakthivel, Chockalingam Vanniarajan, Paramasiwam Jeyaprakash, Subramaniam Geethanjali, Mathivanan Sivaji, Thanakkan Ramesh, Sadayandi Geethanjali, Selvavinayagam Monika, Lakshmanan Vigneshwari
    Tropical Plant Biology.2025;[Epub]     CrossRef
  • Finger millet (Eleusine coracana) improvement: Challenges and prospects—A review
    Adane Gebreyohannes, Hussein Shimelis, Jacob Mashilo, Damaris A. Odeny, Taye Tadesse, Chris O. Ojiewo
    Plant Breeding.2024; 143(3): 350.     CrossRef
  • Cross transferability of finger millet SSR markers to little millet (Panicum sumatrense Roth. Ex Roem & Schult.)
    Komal G. Lakhani, Kirankumar Suthar, Diwakar Singh, Sumankumar Jha, Harshal Patil, Rehana Niyaria
    Ecological Genetics and Genomics.2024; 32: 100281.     CrossRef
  • Profiling of foxtail millet (Setaria italica L.) germplasm using in vitro drought screening and SSR markers
    N. S. Ahmad, M. A. Abid, A. A. Al-Assie
    Plant Genetic Resources: Characterization and Utilization.2022; 20(4): 277.     CrossRef
  • Genome-Wide Assessment of Population Structure and Genetic Diversity of the Global Finger Millet Germplasm Panel Conserved at the ICRISAT Genebank
    C. Backiyalakshmi, Mani Vetriventhan, Santosh Deshpande, C. Babu, V. Allan, D. Naresh, Rajeev Gupta, Vania C. R. Azevedo
    Frontiers in Plant Science.2021;[Epub]     CrossRef
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Cross Species Amplification of Cowpea Derived Unigene-SSR Markers and Diversity Analysis in Black Gram [Vigna mungo (L.) Hepper]
Jegadeesan Souframanien, Sudhir Kumar Gupta, Kandali Srinivasulu Reddy
Plant Breed. Biotech. 2017;5(2):88-96.   Published online June 1, 2017
DOI: https://doi.org/10.9787/PBB.2017.5.2.88

Black gram [Vigna mungo (L.) Hepper] is an important legume crop in Asia, where it is a major source of dietary protein for its predominantly vegetarian population. Molecular breeding programme in this crop has made little progress due to lack of genomic resources. It largely depends on the sequence information available in the closely related taxa. Ninety-six cowpea derived unigene-SSR markers were tested for their cross species amplification in black gram. Forty-nine unigene-SSR primers showed cross species amplification and diversity among 42 black gram accessions were studied. Each unigene-SSR marker detected two to five alleles and 49 SSR primers collectively amplified 119 alleles in black gram with an average of 2.4 alleles/locus. The polymorphic information content (PIC) of the unigene-SSR markers ranged from 0.05 to 0.72 with an average of 0.41. Cluster analysis based on neighbor-joining method grouped the 42 accessions into three major clusters. The genetic closeness among the cultivars can be explained by the high degree of commonness in their pedigree. These unigene-SSR markers were also successful in detecting variation among 15 gamma ray induced mutants of black gram included in the present investigation. Functional categorization of these unigene-SSR markers corresponded to many genes with biological, cellular and molecular functions, and hence offers an opportunity to investigate the consequences of SSR polymorphism on gene functions and serves as valuable resource for black gram genetic analysis.

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  • Genetic Dissection of Genomic Regions Associated with Resistance to Urdbean Leaf Crinkle Disease and Yield Related Traits in Black Gram (Vigna mungo (L.) Hepper)
    Bala Barathi Modugula, Ratna Babu Didla
    Plant Molecular Biology Reporter.2025; 43(2): 723.     CrossRef
  • Morphological and molecular characterization of cowpea (Vigna unguiculata L. Walp.) genotypes
    C.G. Patel, P.T. Patel, D.T. Dharajiya, A.B. Patel, H.N. Zala, A.B. Khatri, K.K. Tiwari
    Genetika.2022; 54(2): 633.     CrossRef
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Parentage Confirmation of Korean Bred Pear Cultivars by Simple Sequence Repeat SSR Genotyping and S-Genotypes Analysis
Hoy-Taek Kim, Arif Hasan Khan Robin, Ill-Sup Nou
Plant Breed. Biotech. 2016;4(2):198-211.   Published online May 31, 2016
DOI: https://doi.org/10.9787/PBB.2016.4.2.198

Identification and authentication of parentage are important for effective pear breeding. Within Korean pear cultivars discrepancies are often reported between parents and offspring in skin color of fruits and also in S-genotypes suggesting that reported parentage was often inappropriate. In Korea, the parentage of the most of pear cultivars was never confirmed at the molecular level. Simple sequence repeat (SSR) genotyping and S-genotype analysis are considered effective in identifying parents. In this study, parentage of nine Korean bred cultivars was confirmed using SSR genotyping and S-genotype analysis. A total of 53 SSR markers were used. Six different haplotype-specific endonucleases were used for restriction cleavage of S-genotypes. Most of the Korean bred cultivars had six comparatively shorter S-RNase, S1, S3, S4, S5, S6, or S7 of 450 bp in length whereas the Japanese control cultivars had four other comparatively longer S-RNase. Out of nine pear cultivars only ‘Chuwhangbae’ and ‘Whangkeumbae’ had identical SSR genotypes and S-genotype with previously reported parents. For another cultivar, ‘Sujeonbae’, the parents were the mutants of reported parent, ‘Niitaka’. For four other cultivars, SSR and S-genotypes of offspring matched with only one reported parent ‘Niitaka’ but those of another parent did not match. For the two other pear cultivars ‘Soowhangbae’ and ‘Sooyoung’ none of reported parents were confirmed by SSR genotyping and S-genotype analysis. Historically, the parent ‘Niitaka’ was predominant in the Korean pear breeding programs because of its high yield potential and quality. The methods have been used in this study could be used to identify pear cultivars with diverse S-genotypes to eliminate any existing obscure parent-offspring relations.

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  • Genetic Differentiation of Ornamental and Fruit-Bearing Prunus laurocerasus Revealed by SSR and S-Locus Markers
    Attila Hegedűs, Péter Honfi, Sezai Ercisli, Gulce Ilhan, Endre György Tóth, Júlia Halász
    Horticulturae.2025; 11(7): 854.     CrossRef
  • Quantitative Trait Loci Analysis Related to Fruit Quality Traits in Interspecific Hybrid Derived from the Cross Between ‘Manpungbae’ and ‘Oharabeni’ Pear (Pyrus spp.)
    Keumsun Kim, Haewon Jung, Kyungho Won, Seok Kyu Yun, Young Sik Cho, Eu Ddeum Choi, Ung Yang
    Korean Journal of Breeding Science.2025; 57(4): 455.     CrossRef
  • Construction of a Bin Genetic Map and QTL Mapping of Red Skin in Interspecific Pear Population
    Xiaojie Zhang, Mengyue Tang, Jianying Peng, Hui Ma, Yuxing Zhang
    Horticulturae.2025; 11(8): 994.     CrossRef
  • Phenotypic assessment of pear varieties in mutual pollination
    Nina Mozhar, E. Egorov, I. Ilina, N. Zaporozhets, E. Yakimenko
    BIO Web of Conferences.2021; 34: 01012.     CrossRef
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Identification of Korean Ginseng (Panax ginseng) Cultivars Using Simple Sequence Repeat Markers
Yurry Um, Mei-Lan Jin, Ok-Tae Kim, Young-Chang Kim, Seong-Cheol Kim, Seon-Woo Cha, Ki-Wha Chung, Serim Kim, Chan-Moon Chung, Yi Lee
Plant Breed. Biotech. 2016;4(1):71-78.   Published online February 28, 2016
DOI: https://doi.org/10.9787/PBB.2016.4.1.71

Panax ginseng has been one of the most important herbal medicines used in Eastern Asia. Recently, various molecular markers have been developed to authenticate Panax species, but these markers cannot differentiate the exact varieties or variants of Korean ginseng cultivars. In this study, six cultivars of Korean ginseng (Chunpoong, Yunpoong, Gopoong, Gumpoong, Jakyung, and Hwangsook), P. quinquefolius, and P. notoginseng were differentiated by simple sequence repeat (SSR) marker development. Specific primer sets were designed for the 54 candidate sequences containing SSRs that were predicted. Finally, eight polymorphic SSR loci were developed. DNA fragment analysis was performed using fluorescence-labelled primers for the amplicons. Reproducibility tests were carried out using multiple samples of Korean ginseng cultivars and Panax species. Eight primer sets (PgSSR07, PgSSR08, PgSSR09, PgSSR17, PgSSR37, PgSSR40, PgSSR51, and PgSSR53) showing polymorphism were used for phylogenetic relationship analysis. Consequently, six Korean ginseng cultivars (Chunpoong, Yunpoong, Gopoong, Gumpoong, Jakyung, and Hwangsook), P. quinquefolius, and P. notoginseng could be identified using the combination of SSR markers discovered.

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  • Development of Genomic SSR Markers to Reveal the Genetic Diversity in Trichosanthes kirilowii from Korea
    Jun-Su Kim, Raveendar Sebastin, Du-Hyun Baek, Yun-Sook Kim, Yong-Nam Cho, Doyun Kim, Tae-Young Heo, Jong-Wook Chung, Jae-Young Heo
    Molecular Biotechnology.2026; 68(6): 2927.     CrossRef
  • Genetic diversity of Panax ginseng cultivated in Japan and its relation with some plant characteristics
    Honoka Ito, Michiho Ito
    Journal of Natural Medicines.2024; 78(1): 91.     CrossRef
  • Development and authentication of Panax ginseng cv. Sunhong with high yield and multiple tolerance to heat damage, rusty roots and lodging
    Jiho Seo, Joon-Soo Lee, Sung-Lye Shim, Jun-Gyo In, Chol-Soo Park, Yong-Jae Lee, Hee-Jun Ahn
    Horticulture, Environment, and Biotechnology.2023; 64(5): 753.     CrossRef
  • Comparative metabolic profiling of root, leaf, fruit, and stem tissues of Panax notoginseng
    Rui Shi, Bingjie Xiong, Shu He, Can Liu, Jiftah Ben-Asher, Abraham Rami Horowitz, Shu Wang, Xiahong He
    International Journal of Food Properties.2022; 25(1): 1132.     CrossRef
  • Investigation of Morphological Characteristics and Genetic Diversity of Adenophora triphylla (Thunb.) A. DC. Using SSR Markers
    Dae Hui Jeong, Yurry Um, Yeong Bae Yun, Jeong Hoon Huh, Jiah Kim, Hong Woo Park
    Korean Journal of Medicinal Crop Science.2022; 30(6): 411.     CrossRef
  • Development of Whole Genome Sequence-based Novel SSR Markers in Astragalus membranaceus (Fisch.)
    Mok Hur, Yurry Um, Yi Lee, Yoon Jeong Lee, Sung Cheol Koo, Woo Tae Park, Jang Hoon Kim, Yun Chan Huh, Youn Ho Moon
    Korean Journal of Medicinal Crop Science.2021; 29(6): 418.     CrossRef
  • De novo assembly and Transcriptome characterization of an endemic species of Vietnam, Panax vietnamensis Ha et Grushv., including the development of EST-SSR markers for population genetics
    Dinh Duy Vu, Syed Noor Muhammad Shah, Mai Phuong Pham, Van Thang Bui, Minh Tam Nguyen, Thi Phuong Trang Nguyen
    BMC Plant Biology.2020;[Epub]     CrossRef
  • Silicon foliage spraying improves growth characteristics, morphological traits, and root quality of Panax ginseng C.A.Mey
    Soo-won Jang, Nooruddin Bin Sadiq, Muhammad Hamayun, Jehyeong Jung, Taeksung Lee, Jung-Seok Yang, Bokyung Lee, Ho-Youn Kim
    Industrial Crops and Products.2020; 156: 112848.     CrossRef
  • Genetic Diversity of Angelica gigas Nakai Collected in Korea using Genome-Wide SSR Markers
    Dae Hui Jeong, Yun Mi Park, Ki Yoon Kim, Hong Woo Park, Kwon Seok Jeon, Mahn Jo Kim, Jin Su Gil, Yi Lee, Yurry Um
    Korean Journal of Medicinal Crop Science.2019; 27(6): 376.     CrossRef
  • Whole genome re-sequencing and development of SSR markers in oriental melon
    Woon-Ho Song, Sang-Min Chung
    Journal of Plant Biotechnology.2019; 46(2): 71.     CrossRef
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Genetic Diversity Among Korean Rice Landraces (Oryza sativa L.) Based on Characters and SSR Markers
Kyung Jun Lee, Jong-Ro Lee, Gi-An Lee, Ho Sun Lee, Soon Ik Kwon, Yong-Gu Cho, Yang-Hee Cho, Kyung-Ho Ma, Sok-Young Lee, Jong-Wook Chung
Plant Breed. Biotech. 2015;3(3):216-225.   Published online September 30, 2015
DOI: https://doi.org/10.9787/PBB.2015.3.3.216

In order to estimate genetic diversity of Korean rice landraces, rice characters and SSR markers of 76 rice germplasms were analyzed. Of 12 rice characters, amylose content (AC) showed as largest variance (4.9 to 28.9%), whereas grain length (GL) showed as the lowest variance (4.4 to 5.9 mm). In principal component analyses (PCA), the first principal component explained 60.3% of total variance, in which culm length (CL) and growth period (GP) showed as positive variance and AC showed as negative variance. The second principal component explained an additional 22.4% of the total variance, in which GP and AC showed highly positive variables and CL showed a negative variable. Forty nine SSR markers produced a total of 473 alleles with an average of 9.65 alleles. Polymorphism information content (PIC) was in the range of 0.11 to 0.93. Average observed heterozygosity ranged from 0.12 to 0.39, with an average value of 0.61. As a result of STRUCTURE analysis, 76 Korean rice landraces showed two subpopulations. In clustering analysis, rice characters and SSR markers were clustered into four groups and three groups, respectively. However, they were not significant different from each other. These results provided insight into the characteristics of Korean rice landraces, thus improving our knowledge on rice breeding.

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  • Genome-Wide Association Study to identify Bakanae disease resistance-related QTLs carrying novel candidate genes in rice (Oryza sativa L.)
    Yuting Zeng, Fang-Yuan Cao, Ah-Rim Lee, Dongryung Lee, Backki Kim, Soon-Wook Kwon
    npj Science of Plants.2025;[Epub]     CrossRef
  • Physio-biochemical and molecular characterization for drought tolerance in rice genotypes at early seedling stage
    Al-Ashkar IM, Zaazaa EI, EL Sabagh A, Barutçular C
    Journal of Experimental Biology and Agricultural Sciences.2016; 4(6): 675.     CrossRef
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ISSR Markers-Trait Associations and Stability Analysis in Bread Wheat Varieties
M.H. Motawea, A.A. Said, A.G.A. Khaled
Plant Breed. Biotech. 2015;3(2):167-177.   Published online June 30, 2015
DOI: https://doi.org/10.9787/PBB.2015.3.2.167

The genetic variability and yield stability are complex traits with large environmental components that are utilized for breeding of improved plant performance under drought conditions. In order to better understand the relationship among genotype, trait components, and environment, marker-trait associations in 20 wheat varieties using phenotypic and ISSR (Inter-Simple Sequence Repeat) markers under drought conditions were examined. The combined analysis of variance results showed that the tested traits were significantly influenced by years, irrigation treatments, and the varieties. The drought stress conditions resulted in a substantial reduction in grain yield by 33.70%. The varieties viz., Shakha-93, Sahel-1, Giza-160, Giza-168, Sids-1, Sids-4 and Nilen were relatively drought resistant (DSI, Drought Susceptibility Index values< 1) and gave high grain yield when compared with the average of all varieties under drought stress. The stability analysis revealed that the cultivar named ‘Sids-1’ showed high and stable yield (bi=1 and S2di = 0), so it could be selected to be grown under drought stress conditions. On the other hand, Shakha-92 and Bacanora-88 showed below-average stability (bi = 1.35 & 1.42), indicating that these genotypes perform well under normal conditions. The percent of polymorphism (%P) among varieties ranged from 25 to 80% with an average of 52.08%. Polymorphism information content (PIC) values varied from 0.08 to 0.28. Plant height and 1000-kernel weight showed significant regressions (23.83 and 27.54) under normal irrigation conditions, respectively. Moreover, under drought stress conditions, plant height, 1000-kernel weight and no. of spikes/m2 showed significant regressions of 40.38, 20.95 and 24.95, respectively.

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Evaluation of SSR and SNP Markers for Molecular Breeding in Rice
Zennia Jean Gonzaga, Kashif Aslam, Endang M. Septiningsih, Bertrand C.Y. Collard
Plant Breed. Biotech. 2015;3(2):139-152.   Published online June 30, 2015
DOI: https://doi.org/10.9787/PBB.2015.3.2.139

Simple sequence repeats (SSRs) have been the marker of choice for rice molecular breeding due to the high level of polymorphism, technical simplicity and low cost. Recent advances in rice genomics have led to the discovery of abundant single nucleotide polymorphism (SNPs) which have enormous potential for rice molecular breeding. To assess both marker systems for molecular breeding in rice, SSR and SNP markers were evaluated on a set of 23 genotypes representing indica germplasm for their usefulness in molecular research and breeding program. Seven hundred SSR and sequence tagged sites (STS) markers and 384 SNPs were screened for polymorphism. Highly polymorphic markers based on polymorphic information content (PIC) values were identified, which will be useful for molecular breeding. Data was used to identify an “indica genotyping set” based on high level of polymorphism, chromosome position and marker quality which will provide kits of markers for marker assisted selection (MAS). Genetic diversity analysis using SSR data was more consistent with pedigrees compared to analysis with SNP data indicating that more than 384 SNPs are required when elite indica breeding material is used. The results also indicated that there were polymorphic “blind spots” for the fixed SNP set suggesting that SSRs could still be used to complement fixed-SNP genotyping platforms for some molecular breeding applications.

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Field Performance and SSR Analysis of Drought QTL Introgression Lines of Rice
Jung-Pil Suh, Yong-Jae Won, Eok-Keun Ahn, Jeong-Heui Lee, Woon-Goo Ha, Myeong-Ki Kim, Young-Chan Cho, Eung-Gi Jeong, Bo-Kyeong Kim
Plant Breed. Biotech. 2014;2(2):158-166.   Published online June 30, 2014
DOI: https://doi.org/10.9787/PBB.2014.2.2.158

A set of five Korean rice cultivars and seven drought-tolerant indica lines were screened under irrigated non-stress and drought-stressed conditions in the 2011 and 2012 dry seasons at IRRI, Philippines. The drought-stressed experiment received mild to moderate stress. Under drought stress, ‘IR86918-B-439-B’ had the highest grain yield among all tested lines and ‘Hanarembyeo’ had the highest grain yield among the five Korean rice cultivars. ‘IR86918-B-439-B’ also had the highest yield under irrigated non-stress conditions. The grain yield of ‘Hanareumbyeo’ was similar to ‘IR86918-B-439-B’ under non-stress conditions. SSR marker analysis was performed using 125 SSR markers for detection of polymorphic markers between the Korean rice cultivars and the drought-tolerant indica lines, and for genetic diversity analysis. Twelve polymorphic markers were identified in the region of three major drought QTLs (DTY1.1, DTY2.2, DTY3.1) in two of the Korean rice cultivars and three of the drought-tolerant lines. These polymorphic markers will be useful as foreground genotyping markers for drought-QTL introgression in Korean rice genetic backgrounds.

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Phenotypic and Genotypic Analyses of Drought Tolerance in Korean and Tunisian Wheat Cultivars
Sang Heon Kim, Dae Yeon Kim, Inés Yacoubi, Yong Weon Seo
Plant Breed. Biotech. 2014;2(2):139-150.   Published online June 30, 2014
DOI: https://doi.org/10.9787/PBB.2014.2.2.139

Common wheat (Triticum aestivum L.) and durum wheat (T. turgidum L. subsp. Durum) are major staple food crops in the world. However, their production are limited by environmental stress such as drought. In order to evaluate wheat’s response to drought, a total of 77 common wheat and durum wheat consisted of 19 Korean common wheat, 30 Tunisian common wheat and 28 Tunisian durum wheat were used in this study. Drought stress was applied for 21 days by suspending water application starting at the third leaf-expansion stage, followed by watering for the recovery of wheat until harvesting. Phenotypic parameters such as plant height, leaf length, tiller number, chlorophyll content, days to flowering and dry weight were scored during and after the treatment. Drought tolerance trait index (DTTI) and drought tolerance index (DTI) were calculated and used as criteria for selection of drought tolerance. At the end of treatment, most of the parameters except tiller numbers significantly decreased. Even after re-watering, plant height, leaf length, and dry weight continuously decreased. However, leaf chlorophyll content, and days to flowering of both stressed and non-stressed plants showed no significant differences. A total of 17 drought tolerance related simple sequence repeats (SSR) markers were used to identify genetic distance between Korean and Tunisian cultivars and elucidate possible use of marker systems for drought resistance. The common wheat and durum wheat cultivars formed different clusters for drought tolerance (resistance, moderate resistance, susceptible) using the SSR data. The results obtained in this study could help to increase genetic resources and breeding program for drought tolerance.

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    Sang Heon Kim, Jae Yoon Kim, Dae Yeon Kim, Jin Seok Yoon, Woo Joo Jung, Inés Yacoubi, Yong Weon Seo
    Genes & Genomics.2016; 38(10): 939.     CrossRef
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ISSR-derived Molecular Markers for Korean Wheat Cultivar Identification
Jae-Han Son, Kyeong-Hoon Kim, Sanghyun Shin, Hag-Sin Kim, Nam-Soo Kim, Jong-Nae Hyun, Sang-In Shim, Choon-Ki Lee, Kwang-Geun Park, Chon-Sik Kang
Plant Breed. Biotech. 2013;1(3):262-269.   Published online September 30, 2013
DOI: https://doi.org/10.9787/PBB.2013.1.3.262

Inter simple sequence repeat (ISSR) is a technique that leads to the development of novel specific molecular markers and relationship analysis between species. In this study, 54 ISSRs were used to develop cultivar-specific DNA sequence characterized amplified regions (SCARs) for Korean wheat cultivars (Triticum aestivum). Using nine of 54 UBC ISSR primers, 16 cultivar-specific fragments were detected among 32 wheat cultivars. Of the 16 primers, 10 successfully amplified targets in 32 cultivars and six novel cultivar-specific markers were finally selected. A total of 13 Korean wheat cultivars (Ol, Dahong, Namhae, Jinpum, Anbaek, Jopoom, Jokyung, Sinmichal 1, Jeokjoong, Dajung, Goso and Joah) were classified by newly developed six SCAR markers. Cultivar-specific markers can be used not only for cultivar fingerprinting but also for marker-assisted selection in wheat breeding program.

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  • Molecular Characterization of Some Wheat Varıeties and Genotypes Grown in Syrıa and Türkiye Using ISSR Marker Technique
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SSR Analysis of Genetic Diversity and Cold Tolerance in Temperate Rice Germplasm
Jung-Pil Suh, Young-Chan Cho, Jeong-Heui Lee, Sang-Bok Lee, Jae-Youn Jung, Im-Soo Choi, Myeong-Ki Kim, Chung-Kon Kim, Kshirod K. Jena
Plant Breed. Biotech. 2013;1(2):103-110.   Published online June 30, 2013
DOI: https://doi.org/10.9787/PBB.2013.1.2.103

A total of 23 elite rice cultivars from eight countries were evaluated for cold tolerance using two screening methods at Chuncheon Substation, National Institute of Crop Science (NICS), Republic of Korea. The rice cultivars Jinbu, Mustaqillik, and Avangard showed cold tolerance and high spikelet fertility (63–79%) in cold-water irrigation screening. Under greenhouse screening, five cultivars (Giza 177, Avangard, Mustaqillik, Jinbu, and Jungan) showed high cold tolerance and high spikelet fertility (71–81%). Simple sequence repeat (SSR) marker analysis of 21 genotypes revealed two major clusters, the japonica and indica groups, with a genetic similarity of 0.69. Out of 21 rice cultivars, only four (Giza 178 from Egypt, Attey and Zakha from Bhutan, and Millin from Australia) fell under the indica cluster. The cold-tolerant varieties Jinbu, Mustaqillik, and Avangard were clustered with the japonica group, which had genetic similarity of 0.83. These varieties are considered as potential germplasm that will help diversify the japonica gene pool for cold-tolerant rice breeding. A one-way linear analysis of variance identified a significant relationship between individual alleles and traits. Three SSR markers were significantly associated with spikelet fertility under cold-water irrigation on chromosomes 1, 2, and 7. Five SSR markers were associated with spikelet fertility under a cool-environment greenhouse on chromosomes 8, 9, 10, and 12. The SSR markers associated with cold tolerance may also be useful as selection markers in indica/japonica cross combinations to improve cold tolerance.

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