MUHAMMAD IHSAN ANDI DAGONG, PASKAH PARTOGI AGUNG, FERDY SAPUTRA, ZULKHARNAIM ZULKHARNAIM, SYAHRUDDIN SAID, EKAYANTI MULYAWATI KAIIN, MOCH SYAMSUL ARIFIN ZEIN
{"title":"基于微卫星标记的有角、轮询的巴厘牛与班腾牛的比较","authors":"MUHAMMAD IHSAN ANDI DAGONG, PASKAH PARTOGI AGUNG, FERDY SAPUTRA, ZULKHARNAIM ZULKHARNAIM, SYAHRUDDIN SAID, EKAYANTI MULYAWATI KAIIN, MOCH SYAMSUL ARIFIN ZEIN","doi":"10.56093/ijans.v93i10.131844","DOIUrl":null,"url":null,"abstract":"Bali cattle (Bos javanicus) are domesticated cattle from Banteng. Bali cattle have unique characteristics that is the white sock. In the Maiwa breeding center, Enrekang district, South Sulawesi Province, polled Bali cattle are being kept in large quantities, both male and female. The microsatellites are widely used in the study of population genetics and quantitative trait locus. Therefore, the study aims to observe genetic diversity and determine whether microsatellites can distinguish horned Bali cattle, polled Bali cattle, and Banteng as their wild relatives. DNA was isolated from blood samples of 57 Bali cattle from two different populations: horned Bali (n=20) from Nusa Penida Island Bali province, polled Bali cattle (n=37) from Maiwa Breeding Center, South Sulawesi province, and 20 samples of Banteng from Ragunan Zoo (n=10), Jakarta Province and Surabaya Zoo (n=10), East Java Province. Genotyping was done using 11 microsatellite markers. The size of each microsatellite marker was determined using GeneMapper version 5.0. The observed heterozygosity value (Ho), expected heterozygosity value (He), the heterozygote deficit within the breed (Fis), gene flow (Nm), Hardy-Weinberg equilibrium (HW), and allele frequency were performed using CERVUS version 3.0.7 program. The FSTAT 2.9.4 was performed to obtain Fis value from two different populations.Similarly, bayesian clustering assignments were analyzed using STRUCTURE version 2.2. The polymorphism information content of eleven microsatellite markers ranged from 0.390-0.879. Moreover, we found Fis values of all markers which depicted that there is no inbreeding in horned and polled Bali cattle populations. We also found that polled Bali cattle have more private alleles than horned Bali cattle. Using Bayesian analysis, we found different genetic structures between polled Bali and horned Bali cattle with the K optimal at K=3. Findings indicated that ILST6 allele 288, TGLA53 allele 132, and TGLA227 allele 70 can be considered as the private allele to differentiate between the horned, polled Bali cattle and Banteng.","PeriodicalId":13507,"journal":{"name":"Indian Journal of Animal Sciences","volume":"54 1","pages":"0"},"PeriodicalIF":0.2000,"publicationDate":"2023-10-06","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Comparison of horned, polled Bali cattle and Banteng based on microsatellite markers\",\"authors\":\"MUHAMMAD IHSAN ANDI DAGONG, PASKAH PARTOGI AGUNG, FERDY SAPUTRA, ZULKHARNAIM ZULKHARNAIM, SYAHRUDDIN SAID, EKAYANTI MULYAWATI KAIIN, MOCH SYAMSUL ARIFIN ZEIN\",\"doi\":\"10.56093/ijans.v93i10.131844\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Bali cattle (Bos javanicus) are domesticated cattle from Banteng. Bali cattle have unique characteristics that is the white sock. In the Maiwa breeding center, Enrekang district, South Sulawesi Province, polled Bali cattle are being kept in large quantities, both male and female. The microsatellites are widely used in the study of population genetics and quantitative trait locus. Therefore, the study aims to observe genetic diversity and determine whether microsatellites can distinguish horned Bali cattle, polled Bali cattle, and Banteng as their wild relatives. DNA was isolated from blood samples of 57 Bali cattle from two different populations: horned Bali (n=20) from Nusa Penida Island Bali province, polled Bali cattle (n=37) from Maiwa Breeding Center, South Sulawesi province, and 20 samples of Banteng from Ragunan Zoo (n=10), Jakarta Province and Surabaya Zoo (n=10), East Java Province. Genotyping was done using 11 microsatellite markers. The size of each microsatellite marker was determined using GeneMapper version 5.0. The observed heterozygosity value (Ho), expected heterozygosity value (He), the heterozygote deficit within the breed (Fis), gene flow (Nm), Hardy-Weinberg equilibrium (HW), and allele frequency were performed using CERVUS version 3.0.7 program. The FSTAT 2.9.4 was performed to obtain Fis value from two different populations.Similarly, bayesian clustering assignments were analyzed using STRUCTURE version 2.2. The polymorphism information content of eleven microsatellite markers ranged from 0.390-0.879. Moreover, we found Fis values of all markers which depicted that there is no inbreeding in horned and polled Bali cattle populations. We also found that polled Bali cattle have more private alleles than horned Bali cattle. Using Bayesian analysis, we found different genetic structures between polled Bali and horned Bali cattle with the K optimal at K=3. 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Comparison of horned, polled Bali cattle and Banteng based on microsatellite markers
Bali cattle (Bos javanicus) are domesticated cattle from Banteng. Bali cattle have unique characteristics that is the white sock. In the Maiwa breeding center, Enrekang district, South Sulawesi Province, polled Bali cattle are being kept in large quantities, both male and female. The microsatellites are widely used in the study of population genetics and quantitative trait locus. Therefore, the study aims to observe genetic diversity and determine whether microsatellites can distinguish horned Bali cattle, polled Bali cattle, and Banteng as their wild relatives. DNA was isolated from blood samples of 57 Bali cattle from two different populations: horned Bali (n=20) from Nusa Penida Island Bali province, polled Bali cattle (n=37) from Maiwa Breeding Center, South Sulawesi province, and 20 samples of Banteng from Ragunan Zoo (n=10), Jakarta Province and Surabaya Zoo (n=10), East Java Province. Genotyping was done using 11 microsatellite markers. The size of each microsatellite marker was determined using GeneMapper version 5.0. The observed heterozygosity value (Ho), expected heterozygosity value (He), the heterozygote deficit within the breed (Fis), gene flow (Nm), Hardy-Weinberg equilibrium (HW), and allele frequency were performed using CERVUS version 3.0.7 program. The FSTAT 2.9.4 was performed to obtain Fis value from two different populations.Similarly, bayesian clustering assignments were analyzed using STRUCTURE version 2.2. The polymorphism information content of eleven microsatellite markers ranged from 0.390-0.879. Moreover, we found Fis values of all markers which depicted that there is no inbreeding in horned and polled Bali cattle populations. We also found that polled Bali cattle have more private alleles than horned Bali cattle. Using Bayesian analysis, we found different genetic structures between polled Bali and horned Bali cattle with the K optimal at K=3. Findings indicated that ILST6 allele 288, TGLA53 allele 132, and TGLA227 allele 70 can be considered as the private allele to differentiate between the horned, polled Bali cattle and Banteng.
期刊介绍:
Articles published in The Indian Journal of Animal Sciences encompass a broad range of research topics in animal health and production related to cattle, buffalo, sheep, goat, camel, equines, pig, rabbit, yak, mithun, poultry and fisheries. Studies involving wildlife species and laboratory animal species that address fundamental questions about their biology will also be considered for publication. All manuscripts must present some new development and must be original, timely, significant and scientifically excellent. Papers will be rejected if standards of care of, or procedures performed on animals are not up to those expected of humane veterinary scientists. At a minimum, standards must meet the International Guiding Principles for Biomedical Research involving Animals, as issued by the Council for International Organizations of Medical Sciences. (C.I.O.M.S., c/o WHO, CH 1211 Geneva 27, Switzerland). Articles reporting new animal disease must follow GOI directive as given in detail in Guidelines to Authors.