본 연구는 국립농업과학원 농업유전자원센터와 일본 NIAS가 보유하고 있는 밀 유전자원 중 한국, 일본, 중국원산 밀 재래종 유전자원 486자원을 대상으로, 국내 적응성판별을 위한 성숙기 특성과 제빵 특성평가를 위하여 분자마커와 SDS-PAGE를 이용하여 고분자글루테닌 조성을 분석하였으며, 또한 이에 대한 원산지별 유전적 다양성을 조사하고 유용자원을 선발하였다. 결과는 다음과 같다. 첫째, SDS-PAGE와 DNA marker를 이용한 고분자글루테닌 분석결과 기존의 보고와 조성패턴이 일치하는 자원은 전체의 381자원으로 78.6%이고, 이중 24자원은(5.6%)는 재래종 유전자원 특성상 불균일성으로 인해 한 allele에 중첩된 band pattern을 보이는 자원이었으며, 13자원(3.2%)은 기존보고에서 볼 수 없는 새로운 band pattern을 보이는 자원으로 비슷한 유형별로 그룹화해 추후 DNA sequencing 분석이 필요할 것으로 생각된다. 둘째, 한국과 일본 자원의 경우 Glu-A1과 Glu-B1 locus에서 Glu-A1c (null)와 Glu-B1b (7+8) allele이 가장 높은 빈도를 보였으나, 중국 자원의 경우 Glu-A1a (2*)와 Glu-B1c (7*+9)가 가장 높은 빈도를 보여 그 양상이 달랐다. 셋째, Glu-B1d (6+8)과 Glu-B1e (20), Glu-D1b(3+12), Glu-D1c(4+12)는 한국자원만 가지고 있는 특이 allele이었고, Glu-B1f (13+16)과 Glu-D1e (2+10)의 경우 오직 중국자원만 가지고 있는 독특한 allele로서 원산지별로 고유한 allele이 존재하였다. 넷째, 고분자 글루테닌 subunit 조합을 기준으로 하여 PIC 및 UPGMA 분석을 통해 유전적 다양성을 분석한 결과 중국자원(PIC value 0.53)의 경우 한국, 일본 자원(PIC value 0.35)보다 유전적 다양성이 높은 것으로 나타났다. 또한 UPGMA tree상 한국, 일본의 유전자원 대부분이 Group I 에 속하는 것과 달리 중국자원의 대부분은 GroupⅡ에 속해 양국과는 구별되는 특성을 보였다. 다섯째, 총 291자원에 대한 Glu-1점수평가를 실시한 결과, 총 26자원이 10점 만점 자원이었다. 이중 중국원산 자원이 23자원, 한국원산 자원은 3자원이었다. 선호되는 allele인 Glu-D1d를 가진 자원은 만점 자원을 제외하고 총 16점이 있었다. 또한 전체 자원 중에는 6점의 자원이 147자원으로 가장 많았고, 8점 이상의 비교적 우수한 조성의 자원은 84자원이었다. 여섯째, 선발된 만점 자원의 출수기, 성숙기를 조사한 결과, 6월 상순 이전에 성숙한 자원은 16자원으로 특히 이중 3자원(K151847, K151865, K151962)은 극조숙성인 국내품종들의 숙기와 비슷한 5월 하순 성숙해 특히 이용가능성이 높을 것으로 기대된다.
Glutenin is the major factor responsible for the unique viscoelastic dough characterisitcs of wheat flour, which determine mixing and bread baking performance(X.Shan et al, 2007). And early maturity is one of the most important cultural characteristic in Korea because of its winter cropping system. This study is to reveal the genetic properties of Asian wheat landrace collection originated from 6 separate regions such as Korea, China, Japan, Afganistan, Iran, Pakistan, Caucasus, and Middle East. Using germplasms maintained in National Agrobiodiversity Center, RDA, Korea, the variations in morphological character and HMW glutenin subunit composition were investigated.
In this study, Glu-A1c(null), Glu-B1b(7+8) and Glu-D1a(2+12) alleles are the most frequent in Asian landrace wheats. When it comes to unique composition, Glu-B1aj(8) and Glu-D1q(2+11) subunits are only in Afghanistan wheat. And Glu-B1k(22), Glu-D1l(12), Glu-D1m(10) subunits are only in accessions from Pakistan, Korea, and China, respectively.
The accessions from Iran and Caucasus have the highest PIC value(0.57), which shows wheat origin region has high genetic diversity. Grouping by UPGMA anlysis of combination of Glu-1 allele, most accessions from Afghanistan, Korea, and Japan were in the same group despite of geological distance. Contrasively, many germplasms originated from China, Caucasus, and Middle East were in the other same group.
The evaluation of bread baking quality by Glu-1 scoring system, 34 accessions are perfect 10. 16 samples from China and 1 Afghanistan among them were also matured before early June, suitable to Korean cropping system. Especially, 3 accessions(K151847, K151865, K151962) had extremely early maturity, ripened before late May. These genetic resources having good gluten quality and early maturity are expected to be used for Korea wheat breeding system.
The objective of this study was to analyze the genetic diversity using SSR marker and investigate the fatty acid composition of perilla (P. frutescens var. frutescens) germplasm. Genetic diversity among 95 accessions, which consisted of 29 weedy types and 66 landrace accessions, was evaluated based on 12 SSR markers carrying 91 alleles. The mean values of observed (HO) and expected heterozygosities (HE) were 0.574 and 0.640, respectively, indicating a considerable amount of polymorphism within this collection. A genetic distance-based phylogeny grouped into two distinct groups, which were the landrace, moderate and weedy type, genetic distance (GD) value was 0.609. The physicochemical traits about crude oil contents and fatty acid compositions were analyzed using GC. Among tested germplasm, the total average oil contents (%) showed a range from 28.57 to 49.67 %. Five fatty acids and their contents in the crude oils are as follows: α-linolenic acid (41.12%-51.81%), linoleic acid (15.38%-16.43%), oleic acid (18.93%-27.28%), stearic acid (2.56%-4.01%), and palmitic acid (7.38%-10.77%). The average oil content of wild types was lower than landrace, and the oil content of middle genotype accessions was higher than other germplasm, but no significant variation between landrace and wild types was shown. Nevertheless, IT117174, landrace of Korea, was highest in crude oil content (47.11%) and linolenic acid composition (64.58%) among the used germplasm. These traits of the selected accessions will be helped for new functional plant breeding in perilla crop.
Buckwheat (Fagopyrum esculentum Moench), one of the minor crops grown in Korea belonging to the Polygonaceae family, is an annual crop widely cultivated in Asia, Europe, and America and has a character of outcrossing and self-incompatibility. The objective of this study was to analyze the genetic variability, phylogenetic relationships and population structure of buckwheat landraces of Korea using SSR markers. Ten microsatellite markers have been detected from a total of 79 alleles among the 179 buckwheat accessions were collected from Korea. The number of allele per marker locus (NA) ranged from 2 (GB-FE-001, GB-FE-043 and GB-FE-055) to 31 (GB-FE-035) with an average of 7.9 alleles. GB-FE-035 was the most polymorphic with the highest PIC value 0.93. Major allele frequencies (MAF) for the 10 polymorphic loci varied from 0.12 to 0.97 with a mean allele frequency of 0.57. The expected heterozygosity (HE) values ranged from 0.05 to 0.94 with an average of 0.53. The observed heterozygosity (HO) ranged from 0.06 to 0.92 with an average of 0.42. The overall polymorphic information contents (PIC) values ranged from 0.05 to 0.93 with an average of 0.48. The landrace accessions of buckwheat used in the present study were not distinctly grouped according to geographic distribution. The study concludes that the results revealed genetic differentiation was low according to the geographic region because of outcrossing and self-incompatibility. We reported that our analyses on the genetic diversity of common buckwheat cultivars of Korea were performed by using of microsatellite markers.