2019년에 서남해안 지역인 고창군의 옥수수 밭 주변에서 성페로몬을 이용하여 열대거세미나방(Spodoptera frugiperda) 성충을 효과적으로 모니터 링하는 방법을 조사하였다. 총 함량이 300 또는 1000 ㎍인 2종류 성분 조성의 성페로몬 미끼[(100%) (Z)-9-tetradecenyl acetate and (2%) (Z)-7-dodecenyl acetate]를 설치한 깔대기형 트랩과 델타형 트랩 중에서 열대거세미나방은 300 ㎍ 미끼의 깔대기형 트랩에서 8월 6일에 처음 잡혔고 가장 많이 포획되었다. 또한 깔대기형 트랩 모두에서 비표적 종인 뒷흰가는줄무늬밤나방(Mythimna loreyi)이 많이 포획되었다. 총 함량이 1000 ㎍인 위의 2종류 성분 조성과 4종류 성분 조성의 미끼[(100%) (Z)-9-tetradecenyl acetate, (8%) (Z)-11-hexadecenyl acetate, (2%) (Z)-7-dodecenyl acetate, and (1%) (Z)-9-dodecenyl acetate]를 설치한 날개형 트랩에서 열대거세미나방은 비슷한 수준의 낮은 포획수를 보였으나 뒷흰가는줄무늬밤나방은 4종류 성분 조성의 미끼에서 훨씬 더 많이 포획되었다. 성페로몬 트랩에 포획된 열대거세미나방 70마리의 미토콘드리아 시토크롬 옥시다제 1(CO1)의 부분 염기서열(1,004 bp)을 이용하여 계통수를 분석한 결과, 두 개의 종내 변이군으로 나눠졌으며 66마리가 CO1-RS로, 나머지 4마리는 CO1-CS로 분지되었다. 또한 두 개의 CO1 변이군과 기주식물계통(벼, 옥수수)에서 일관되게 차이가 있는 총 12개의 CO1 단일염기다형성(SNP)이 확인되었으며, 전체 73마리 중 4마리만 CO1-CS 그룹(옥수수계통 포함)과 동일한 패턴을 보였으며 나머지 69마리는 CO1-RS그룹(벼계통 포함)과 같았다.

The honey bee, Apis mellifera ligustica (Hymenoptera: Apidae), strain with a high hygienic behavior (HHB) has been bred for several years in Korea, and a diagnosis system to distinguish it from low hygienic behavior (LHB) strain has been necessitated. Thus, complete mitogenome of the two strains were sequenced through Next-Generation Sequencing technique to detect SNPs. Comparison of the mitogenome sequences from the two strains of A. m. ligustica have detected 23 SNPs in 11 PCGs and these were further confirmed the presence of SNPs using each 10 individuals selected randomly from each strain, indicating that these SNP markers might be useful to diagnose the honeybee strains with the HHB. Therefore, mitogenome sequences are promising genome source to detect SNP markers, particularly for inbred female iso-lines.

Tomato spotted wilt virus (TSWV) causes one of the most destructive viral diseases that threaten tomato (Solanum lycopersicum) worldwide. So far, eight TSWV resistance genes, Sw1a, Sw1b, sw2, sw3, sw4, Sw-5b, Sw-6, and Sw-7 have been identified and Sw-5b has been incorporated into tomato for prevention of TSWV. The objectives of this research are first to discover single nucleotide polymorphisms (SNPs) in Sw-5 alleles and then to develop SNP markers to distinguish resistant genotypes against TSWV for marker-assisted breeding in tomato. First, DNA sequences of Sw-5b alleles from both resistant and susceptible cultivars amplified using known Sw-5 gene-based marker was analyzed. The single functional SNP (G→A) was detected as non-synonymous substitution because this SNP causes change of arginine (Arg599) to glutamine (Gln599). Next, the primer pair for high resolution melting analysis (HRM) was designed around this SNP. To determine accuracy of this SNP marker to distinguish resistant Sw-5b genotypes against TSWV, genotypes of 32 commercial tomato cultivars were checked. The newly developed SNP marker could select six cultivars carrying resistant Sw-5b genotype, which was 100% correlated with genotypes based on the gene-based marker. These results indicate that the SNP maker developed in this study could be useful for better tracking resistance to TSWV in tomato breeding.

The newly developed varieties, Jayoung (violet flesh color) and Hongyoung (red flesh color) that harboring various anthocyanins and flavonoids in flesh colored potato are highly increase their interesting not only for food but also functional characteristics such as anti-inflammatory effects. Up to date, most of the molecular markers developed in potato are linked to disease resistance including late blight and PVY, nematode. A few markers linked to economically important functional materials such as anthocyanin biosynthesis are published. With the low cost and high throughput of NGS (Next Generation Sequencing) technology, numerous molecular markers are highly increased in may crops. Among the molecular markers, SNPs (Single nucleotide Polymorphisms) are most useful markers owing to their large numbers in inter and intra varieties in potato. Here we reported SNPs discovery from transcriptome sequencing data acquired from colored flesh potato cultivars, Jayoung and Hongyoung with white flesh color Atlantic. Total RNA was isolated from shoot in tuber after breaking dormancy about 2cm length. Short read sequence data were obtained form Illumina Hiseq2000 and the raw dat set were trimmed with Q socore over 20. Sequencing data were align to reference genome (Solanum tuberosum v4.03, http://potatogeomics.plantbiolgy.msu.edu). About 70% of sequence read were mapped int to reference genome. 139,050, 140,976 and 146,429 total SNPs were discovered in Hongyoung, Jayoung and Atlantic, respectively. All SNPs are mapped into the psedomolecules in reference genome by chromosome. SNPs are also analyzed with homozygous and heterozygous SNPs and genic and intergenic region. SNPs are compared with Potato Infinium 8K Chip data. SNPs found in candidate genes of anthocyanin biosynthesis were discovered. These SNPs information of flesh colored potato will be further analyzed for the allele mining for anthocyanin syhthesis and control region

SOHLH2 is a novel germ cell-specific transcription factor that is crucial for folliculogenesis in the ovary and spermatogenesis in the testis. SOHLH2 represents a candidate gene for infertility with premature ovarian failure. We analyzed whether mutations in the SOHLH2 gene in 98 Korean women with premature ovarian failure. The sequence analysis identified six novel SNPs (c.431-41G>C, c.656A>T, c.1000+27C>T, c.1000+33G>T, c1258-106G>A, and c.2094+ 11T>C) from Korean patients with premature ovarian failure. The c.656A>T found in exon 7 results in change of an amino acid, tyrosine to phenylalanine. Functional mutations in SOHLH2 gene are rare in Korean women with premature ovarian failure.