Palaclemensia is a genus within the family Incurvariidae, and it has been reported to be a monophagous or narrow oligophagous genus, like other incurvariids, except for two polyphagous species, Paraclemensia incerta and P. acerifoliella. Paraclemensia incerta is one of the common species in Japan and Korea, and seven host plant families are recognized. However, these host records aren’t based on DNA analysis or detailed morphological comparison. Therefore, it was hypothesized that there is genetic differentiation among host races in P. incerta. To investigate this hypothesis, DNA analysis and morphological comparison were performed on Paraclemensia species collected from Japan. As a result, genetic divergence among populations feeding different host plants was not confirmed. Moreover, not only P. incerta but also P. caerulea were suggested to be polyphagous. In contrast, geographic genetic divergence in P. incerta and P. caerulea was observed in Japan. Additionally, it is suggested that P. viridis, P. oligospina, and P. cyanea, despite external morphological differences, could be the same species.

Whiteflies harbor several secondary endosymbionts, which are maternally inherited from mother to offspring, that have major effects on host preferences, biology, and evolution. Here, we identified Wolbachia bacteria in sweetpotato whitefly (Bemisia tabaci) as well as whitefly popluations from other countries by comparison of 16S rDNA sequences. Wolbachia were detected in all tested indigenous B. tabaci populations (Bangladesh, Myanmar, Nepal, and the Philippines) as well as Q1 biotype of Korea, whereas they were absent from B biotype of Korea and Q biotype of China. Wolbachia were also detected in all five tested Aleurodicus dispersus populations as well as Tetraleurodes acaciae, whereas they were not detected in all seven Trialeurodes vaporariorum populatuions. In addiiton, Wolbachia were detected in parasitic wasp (Encarsia formosa) of B. tabaci as well as honeybee (Apis mellifera). Among the 19 whitefly populations from different countries, our analysis identified four phylogenetic groups of Wolbachia, thereby demonstrating the high diversity of this genus. Wolbachia phylogeny suggests a correlation of geographical range with ecological variation at the species level.

Culex orientalis is belonging to the mimeticus group of the genus Culex and shows various patterns of white pale spots on the wing and wing venation which cause an ambiguity to identify as this species. To confirm whether or not these variations are limited within the species, we observed 230 Cx. orientalis specimens collected in Korea and divided them into 51 variations according to their wing spots patterns. To compare a molecular similarity between the variations, the ITS2 regions of five major variations were analyzed. The results showed that there are more than 97% nucleotide sequence similarity between the variations as well as within a variation. This results suggest that the wing variations of Cx. orientalis are limited a within-species divergence. To further confirm, ITS2 regions of other species (Cx. mimeticus and Cx. jacksoni) in the mimetiucs group will be analyzed and compared with those of Cx. orientalis variations.

Much effort has been expended to find agronomically important QTLs for improving soybean yield. However, the complexity of genome, such as genome duplication, limits the utility of genome-wide association studies and linkage analyses to identify genes controlling yield traits. We propose the variation block method, a three-step process for recombination block detection and comparison. The first step is to detect variations by comparing short-read DNA sequences of the cultivar to a reference genome of the target crop. Next, sequence blocks with variation patterns are examined and defined. The boundaries between the variation-containing sequence blocks are regarded as recombination sites. All the assumed recombination sites in the cultivar set are used to split the genomes, and the resulting sequence regions are named as variation blocks. The practicality of this approach was demonstrated by the identification of a putative locus determining soybean hilum color and known genes such as flower color gene. We suggest that the variation block method is an efficient genomics method for recombination block-level comparison of crop genomes. We expect that this method holds the prospect of developing crop genomics by bringing genomics technology to the field of crop breeding.

This study is to raise the utilization of genetic resource of wheat (Triticum aestivum) landrace by evaluating genetic variation related to end use quality of the Far East. Allelic composition of HMW-glutenin subunits encoded by genes of Glu-1 loci associated with bread baking quality was investigated in 324 wheat landrace genetic resources originated from Korea, China, and Japan. The most frequent combination of HMW-glutenin subunits were Glu-A1c, Glu-B1b in Korean and Japanese resources, but Glu-A1a and Glu-B1c were the most in Chinese resources. By using the Glu-1 score system, 24 accessions were evaluated as 10 out of 10. As for genetic diversity, represented by polymorphic information content(PIC) index, the level of variation of Korean landrace(0.245) was lower than that in China(0.569) and Japan(0.294). When it comes to unique composition, Glu-B1f(13+16) and Glu-D1f(2+10) subunits are only in Chinese resources. Glu-B1d(6+8), Glu-B1e(20), Glu-D1b(7+8), and Glu-D1c (7+9) subunits are only in Korean resources. Consequently, this study showed that Chinese landrace collection was the most highly diverse and had distinctive characteristics compared to Korean and Japanese one. Especially, some resources having preferable genetic stock or high Glu-1 score can be valuable for wheat breeding program.

This study were carried out to find bolting response of cultivation in different regions and to isolate FLC (FLOWERING LOCUS C) homologs in Angelica gigas Nakai. The mean temperature of different regions, ordering in altitude, were as follows: 100 m 〉 350 m 〉 530 m 〉 700 m. The largest amount of rainfall was occurred in the region of 350 m while the longest time of sunshine was occurred in the region of 100 m. The content of soil chemical properties in regions showed pH 6.2 ~ 7.4, T-N 0.17 ~ 26, organic mater 1~32gkg-1, P2O5 151~664mgkg-1, exchangeable potassium and calcium and magnesium were 0.78 ~ 1.15, 3.9 ~ 10.0, 0.7~3.2cmol+kg-1. L5 line of A. gigas was occurred in bolting at all regions, but the bolting ratio was 60.0% in 700 m region with non-mulching treatment. Manchu of A. gigas was not occurred in bolting at all regions. The accumulation bolting ratio of L5 line by non-mulching was higher than that of mulching as 90.4% and 72.8% in 100 m region. The MADS-box transcription factor FLC is one of the well-known examples as a strong floral repressor. We decided to isolate FLC homologs from A. gigas as a starting point of flowering mechanism research of this plant. We have isolated two RT-PCR products which showed very high amino acid sequence homology to Arabidopsis FLC.

1. Ds 삽입변이체 3,000계통으로부터 제초제 저항성 1,874계통을 선발하고 농업적 주요 특성으로서 출수일수, 간장, 수수, 수장, 엽장 등 5가지 형질에 대하여 조사한 바, 조사된 5가지 형질에 대하여 원품종인 동진벼에 비하여 매우 다양한 변이폭을 보여주었다. 2. 농업적 유용성과 관련된 수장이 길고, 조기출수, 수수가 많은 변이체 뿐만 아니라 형태학적 변이를 보이는 twin seedling, dwarf, early heading, strip albino, liguleless 등 변이체가 다수 발견됨으로서 육종적 이용 및 유전자 기능해석을 위한 유용한 집단으로서 유용성을 보여주었다. 3. 서던분석 결과, 벼 게놈상에서 Ds는 평균 2 copy로 전이되었으며 조직부위별로 GUS의 발현을 조사한 결과 잎, 뿌리 및 화기관등에서 약 3.9%가 발현되었다. 이 삽입변이체에서 나타난 다양한 변이형질의 주요 농업적 특성과 GUS 발현의 재현성을 위해 다음 세대의 전개를 통한 후대분석이 필요하다.

High molecular weight glutenin (HMW-Glu) subunit compositions of 73 Korean wheat cultivars and experimental lines were evaluated by using one dimensional sodium dodecyl sulfate-polyacrylamide gel electrophoresis. This method is suitable for obtaining a good resolution of 1Dx2 and 1Ax2* without adverse effects on separation of other HMW-Glu subunits. Korean wheats examined in this study could be divided into 15 different groups on the basis of HMW-Glu subunit compositions. From the wheat lines tested, it was identified that there were three alleles at the Glu-Al, five at the Glu-Bl and three at the Glu-D1 loci. The null allele of the Glu-Al was occurred in high frequency (79.4%), while low frequencies for 1Ax1 (12.3%) and 1Ax2* (8.2%) were found. High frequency (75.3%) of the subunit pairs of 1Bx7+1By8 at the Glu-Bl loci compared with other subunits was found. The frequencies of subunits 1Dx2. 2+1Dy12 and 1Dx2+1Dy12 from the Glu-D1 loci were 54. 8% and 37.0%, respectively. However, a few Korean wheat lines (8.2%) carried 1Dx5 + 1Dy10 subunit pair which are responsible for good breadmaking quality. The information of HMW-Glu subunit compositions provide a useful tool to characterize wheat lines, and can be directly used in selection of breeding lines of different end-use properties.