ABSTRACT
Aim: The present study was undertaken to analyze the extent of genetic variability existing among twenty accessions of Lawsonia inermis, collected from Rajasthan and Gujarat states of India, using gene targeted SCoT, arbitrarily amplified ISSR and nuclear rDNA markers. Methodology: Twenty henna accessions, vegetatively established at the Institute were collected from Rajasthan (7) and Gujarat (13). Twenty-six SCoT and twenty ISSR markers generating distinct, unambiguous and scorable fragments were selected, after preliminary screening for assessment of genetic diversity. Data analysis was performed using NTSYS-pc, GenAlEx 6 and POPGENE version 1.31 programs, and dendrograms were generated using unweighted pair group method for arithmetic mean (UPGMA). The internal transcribed spacer (ITS) region of ribosomal DNA was amplified using universal primers followed by sequencing and dendrogram generation. Results: SCoT markers revealed lower values of similarity coefficients ranging from 0.87 - 0.93 compared to 0.93 - 0.98 for ISSR. SCoT markers delineated the L. inermis cultivars into three distinct clusters while ISSR markers demarcated them into five clusters. Interpretation: The Gujarat population of L. inermis was richer in genetic diversity than that of Rajasthan. SCoT markers proved better than the ISSR markers for genetic diversity analysis. Substantial variation in ITS-1 region due to SNPs, INDELS and ITS length polymorphism the nucleotide sequences signified its phylogenetic utility in assessing genetic diversity in of L. inermis.
ABSTRACT
ABSTRACT: The objective of this study is to research the genetic diversity of the ' Zuijinxiang ' grape and its mutant breeding F1 plants, we screened the excellent mutant plants with potential breeding value. 50 mutated single plants obtained from 137Cs-γ irradiated 'Zuijinxiang' grape seeds were used as research objects, and SCoT molecular marker technology was used for genetic diversity and variation analysis, and clustering research was carried out. The results showed that: (1) 36 SCoT primers produced abundant polymorphisms, and the amplification results showed obvious bright bands, and the amplification efficiency and polymorphism rate were 100%. (2) A total of 221 bands were amplified by 36 primers, of which 175 were rich in polymorphism, the average polymorphic percentage was 80.3%, and the average genetic similarity coefficient was 0.916. (3) The number of observed alleles (Na) ranged from 4 to 8, with an average of 6.1389; the number of effective alleles (Ne) ranged from 1.2772 to 5.6322 with an average of 3.5968; the desired heterozygosity (He) The range is from 0.2192 to 0.8344, the average is 0.6965; the observed heterozygosity (Ho) ranges from 0.1656 to 0.7808 with an average of 0.3035; the Nei's gene diversity index (H) ranges from 0.2170 to 0.8224 with an average of 0.6863; Shannon-Wiener The index (I) ranges from 0.5186 to 1.8597 with an average of 1.4517. (4) UPGMA clustering of 51 materials showed that the test materials could be divided into three groups when the genetic distance was 0.856. The experiment shows that the genetic diversity of the 'Zuijinxiang' radiation variation germplasm resources is rich. In addition, SCoT molecular marker technology can distinguish the materials with close genetic distance, and can be used for early identification techniques of grape mutant materials. This study provides a theoretical basis for the development of excellent mutant germplasm of 'Zuijinxiang' grapes.
RESUMO: O objetivo deste estudo é investigar a diversidade genética da uva 'Zuijinxiang' e de suas plantas F1 reprodutoras mutantes. Foram selecionadas as melhores plantas mutantes com potencial e valor genético. Utilizaram-se como objeto de pesquisa 50 plantas individuais mutantes obtidas de sementes de uva irradiadas com 137Cs-γ 'Zuijinxiang', e a tecnologia de marcadores moleculares SCoT para análise de diversidade genética e variação, e foi realizada uma pesquisa de agrupamento. Os resultados mostraram que: (1) 36 iniciadores de SCoT produziram polimorfismos abundantes, e os resultados de amplificação mostraram bandas claras óbvias, e a eficiência de amplificação e taxa de polimorfismo foram de 100%. (2) Um total de 221 bandas foi amplificado por 36 iniciadores, dos quais 175 eram ricos em polimorfismo, a porcentagem polimórfica média foi de 80,3% e o coeficiente médio de similaridade genética foi de 0,916. (3) O número de alelos observados (Na) variou de 4 a 8, com uma média de 6,1389; o número de alelos efetivos (Ne) variou de 1,2772 a 5,6322 com uma média de 3,5968; a heterozigosidade desejada (He), o intervalo é de 0,2192 a 0,8344, a média é de 0,6965; a heterozigosidade observada (Ho) varia de 0,1656 a 0,7808 com uma média de 0,3035; o índice de diversidade genética (H) de Nei varia de 0,2170 a 0,8224 com uma média de 0,6863; Shannon-Wiener o índice (I) varia de 0,5186 a 1,8597 com uma média de 1,4517. (4) O agrupamento de 51 materiais da UPGMA mostrou que os materiais de teste poderiam ser divididos em três grupos quando a distância genética era de 0,856. O experimento mostra que a diversidade genética dos recursos de germoplasma de variação de radiação "Zuijinxiang" é rica. Além disso, a tecnologia de marcadores moleculares da SCoT pode distinguir os materiais com uma distância genética próxima, e pode ser usada para técnicas de identificação precoce de materiais mutantes da uva. Este estudo fornece uma base teórica para o desenvolvimento de germoplasma mutante excelente de uvas "Zuijinxiang".