농촌진흥청 국립원예특작과학원에서는 2018년 분홍색계 소 형 호접란 ‘Tiny Bell’을 육성하였다. 2010년 진분홍색 다화 성 소형 품종 Phalaenopsis ‘D07PN16’와 연분홍색 소형종 P. ‘D03PN22’를 모본과 부본으로 교배하였다. 2014년 생육이 우 수하고 화색, 화형, 꽃대수 등 개화 특성이 우수한 ‘10531-53’ 개체를 선발하여 기내 화경배양을 통해 증식하였다. 2014년부 터 2018년까지 1차, 2차특성검정을 통해 품종의 안정성과 균 일성을 확인한 후 ‘Tiny Bell’로 명명하였다. 이 품종은 밝은 보라빛 분홍색(RHS, PVGN80A)을 띄며, 가장자리에 백색무늬 를 가지는 것이 특징이다. 평피기 형태의 꽃은 길이와 폭이 각각 3.89, 4.01cm이며, 총상화서로 분지가 발생한다. 1개의 꽃대에 19.7개의 소화가 착생하여 꽃 수가 많이 달리는 다화 성이며, 꽃대 길이는 28.48cm정도이다. ‘Tiny Bell’은 생육시 잎이 수평으로 자라며 길이와 폭은 각각 13.1cm, 5.3cm였다. 신품종인 ‘Tiny Bell’은 소형 분화용으로 이용 가능할 것이다.
농촌진흥청 국립원예특작과학원에서는 2017년 빅립 형태의 분홍색계 팔레놉시스 ‘Lovely Angel’을 개발하였다. 2009년 백색 팔레놉시스 P. ‘Timonthy’와 빅립을 가지는 분홍색 P. World Class ‘Big Foot’을 모본과 부본으로 교배하였다. 2013년 생육이 우수하고 화색, 화형, 꽃대수 등 개화 특성이 우수한 ‘09056-12’를 개체선발하여 기내 화경배양을 통해 증식하였다. 2014년부터 2017년에거쳐 1차, 2차 특성검정을 통해 품종의 안정성과 균일성을 확인하여 ‘Lovely Angel’을 육성하였다. 이 품종은 밝고 선명한 보라빛 분홍색(RHS, PVG81C)을 띄며, 줄 무늬를 가지고 있고 설판이 큰 빅립 형태가 특징적이다. 안아피는 형태의 꽃은 길이와 폭이 각각 6.1, 5.6cm이며, 1개의 꽃대에 20.6개의 소화가 착생하여 꽃 수가 비교적 많이 달리고, 꽃대 길이는 31.8cm 이다. ‘Lovely Angel’는 생육시 잎은 반하수로 자라며 길이는 18.7cm, 폭은 6.8cm이다. 신품종인 ‘Lovely Angel’은 소형 분화용으로 이용 가능할 것이다.
Phytoplankton community is one of the important factors for the management of aquatic environment due to generation of varying toxins by harmful algal species. This study was performed to examine the phytoplankton community structure (PCS) in the midstream of Geum River (GR) from January 2014 to December 2015. The water sampling was performed in five stations on 2014, and three stations on 2015. Subsequently, the morphological identification was performed by microscopic observation in laboratory condition. As results, total 265 species were identified and it was comprised of 40.8% of Bacillariophyceae, 9.1% of Cyanophyceae, 44.5% of Chlorophyceae, and the others (4.9%). During the investigation period, total average standing crop of phytoplankton was 12,948 cells mL-1, and it was comprised of 7,702 cells mL-1 of Bacillariophyceae, 2,821 cells mL-1 of Cyanophyceae, 2,121 cells mL-1 of Chlorophyceae, and 305 cells mL-1 of others. To verify which tributaries of upstream area influence on PCS of midstream of GR, the phytoplankton standing crops of two stations including Mihocheon (MH) and Gapcheon (GC) were examined on 2014, and compared to result of on 2015. The results were shown that the MH station had more similar phytoplankton standing crops with midstream of GR than GC station. The relationship between environmental parameters and phytoplankton dynamics was studied at the investigated station. As results, whereas water temperature and total phosphorus were represented the positive correlation, N/P ratio was remarkably exhibited negative correlation. From the results, it is suggested that the PCS of midstream of GR was more affected by MH station than GC station, and the changes of temperature, phosphorus concentration, and N/P ratio may be important factors on the PCS formation of midstream of GR.
Plant-parasitic nematodes are the most devastating group of plant pathogens worldwide and are extremely challenging to control. In the present study, we have performed a genome wide analysis to identify common genes among four nematode species consisting of root-knot nematodes (Meloidogyne incognita and Meloidogyne hapla), cyst nematode (Heterodera glycines), and free living nematode (Caenorhabditis elegans) respectively. Using their whole genome sequences, we predicted 15,274 genes from M. incognita, 38,149 genes from M. hapla, 8,061 genes from H. glycines and 23,894 genes from C. elegans, where, among the predicted genes, 1,358, 1,350, 1,401, 1,365 respectively from each nematode, code for common groups of proteins. Further, 2,067, 2,086, 1,566, 2,903 genes were recollected using Clusters of Orthologous Groups (COG) database. Under our search criteria, a total of 800 common genes were identified in all the four studied nematode genomes. The most annotated conserved genes were obtained from four different species using Basic Local Alignment Searching Tool (BLAST). Uni- Prot Taxon identifier database was used to elucidate their taxonomic classification such as 698 genes under kingdom Metazoa, 660 genes confined to Nematoda, 290 genes in Chordata and 660 genes falling under class Chromadorea. The biochemical characterization of proteins expressed by these genes was examined using Pedant-Pro sequence analysis. The protein length, molecular weight, isoelectric point (pI), and transmembrane domain of the coded proteins were at a range of 300 to 999 amino acids (40.9%), molecular weight of over 100 kDa (96%), pI from 4.5 to 5.5 (27.6%) and 0 (56.6%), respectively. To classify protein function, the obtained BLAST hits were assigned to Gene Ontology classification scheme. The fractions of protein function were distributed as cellular component, biological processes and molecular function of the cell (22.2%), multicellular organism process (15.8%) and binding (48.3%), respectively. The current study provides an excellent resource for nematode functional genomics studies, which can be utilized further for studies on role of genes involved in nematode biological processes.
Pellicle is defined as a thin transparent film stretched over an aluminum (Al) frame that is glued on one side of a photomask. As semiconductor devices are pursuing higher levels of integration and higher resolution patterns, the cleaning of the Al flame surface is becoming a critical step because the contaminants on the Al flame can cause lithography exposure defects on the wafers. In order to remove these contaminants from the Al frame, a highly concentrated nitric acid (HNO3) solution is used. However, it is difficult to fully remove them, which results in an increase in the Al surface roughness. In this paper, the pellicle frame cleaning is investigated using various cleaning solutions. When the mixture of sulfuric acid (H2SO4), hydrofluoric acid (HF), hydrogen peroxide (H2O2), and deionized water with ultrasonic is used, a high cleaning efficiency is achieved without HNO3. Thus, this cleaning process is suitable for Al frame cleaning and it can also reduce the use of chemicals.
As a first step of mapping genes conferring resistance to the brown planthopper, Nilaparvata lugens Stål, in Gayabyeo using a population derived from a cross between Gayabyeo and Taebaegbyeo, we performed the whole genome resequencing of these two Tongil-type rice varieties. The amount of raw sequence data was about 18.5X109 bp and 17.9X109 bp in Gayabyeo and Taebaegbyeo, respectively. After quality trimming and read mapping onto Nipponbare reference genome sequence, 9.3X109 bp was mapped in Gayabyeo with mapping depth of 25.0X, and 9.5X109 bp was mapped in Taebaegbyeo with mapping depth of 25.5X. Between Gayabyeo and Nipponbare, 1,585,880 SNPs were detected, while 1,416,898 SNPs were detected between Taebaegbyeo and Nipponbare. Between Gayabyeo and Taebaegbyeo, 284,501 SNPs were detected. Among the SNPs between Gayabyeo and Taebaegbyeo, 21.2% were in genic region and 78.8% were in intergenic region. In CDS region, 15,924 SNPs were detected, among which synonymous SNPs covered 47.3% and non-synonymous SNPs covered 52.7%. We designed Cleaved Amplified Polymorphic Sequences (CAPS) markers with SNPs in the restriction enzyme recognition sites, and 20 CAPS markers were tested. Of the 20 markers, 19 markers showed polymorphism and one marker showed monomorphism between Gayabyeo and Taebaegbyeo. It is expected that sufficient DNA markers for mapping genes with a population derived from a cross between Gayabyeo and Taebaegbyeo can be developed based on the results of the study.