Characterization of transcription factor genes related to cold tolerance in Brassica napus.

Brassica napus is the third most important oilseed crop in the world; however, in Korea, it is greatly affected by cold stress, limiting seed growth and production. Plants have developed specific stress responses that are generally divided into three categories: cold-stress signaling, transcriptional/post-transcriptional regulation, and stress-response mechanisms. Large numbers of functional and regulatory proteins are involved in these processes when triggered by cold stress.

Analysis of genome variants in dwarf soybean lines obtained in F6 derived from cross of normal parents (cultivated and wild soybean).

Plant height is an important component of plant architecture and significantly affects crop breeding practices and yield. We studied DNA variations derived from F5 recombinant inbred lines (RILs) with 96.8% homozygous genotypes.

Sequence-Specific Amplified Polymorphism (SSAP) and Sequence Characterized Amplified Region (SCAR) Markers in Zea mays.

Transposable elements (TEs) are mobile, recurring DNA sequences scattered throughout genome and have a large impact on genome structure and function. Several genetic marker techniques were developed to exploit their ubiquitous nature. Sequence-specific amplified polymorphism (SSAP) is a TE-based genetic marker system that has been used in various purposes such as measuring genetic relatedness between species, deciphering the population structures, molecular tagging for agronomic development in marker-assisted breeding (MAS).

The complete chloroplast genome of a Korean endemic species , Nakai.

In this study, we report the complete chloroplast (cp) genome of and its relation with other species within the Fabaceae family. The cp genome was 154,870 bp long, with a typical quadripartite structure including a pair of inverted repeat regions (25,866 bp) separated by a large (85,037 bp) and small (18,101 bp) single-copy (SC) region. The genome encodes a total of 84 protein-coding genes, 35 tRNA genes, and 8 rRNA genes.

The complete chloroplast genome of a fern genus .

In this study, we report the complete chloroplast (cp) genome of , a fern member, and comparative analysis with its related family members. The cp genome was 155,983 bp long, with a typical quadripartite structure including a pair of inverted repeat regions (25,614 bp) separated by a large (82,769 bp) and small (21,986 bp) single-copy (SC) region. The genome encodes a total of 88 protein-coding genes, 35 tRNA genes, and 8 rRNA genes.

The complete chloroplast genome of a .

is one of the diverse members of the fern group and medicinally important genus. In Korea, the natural resources of are being exhausted by excessive exploitation and require urgent conservation. In this study, the complete chloroplast genome of was generated, and its structure was compared with that of other members of same family.

De novo assembly and characterization of transcriptome in the medicinal plant Euphorbia jolkini.

Background: Euphorbia jolkini, a medicinal herb that grows on the warm beaches in Japan and South Korea, is known to be used for traditional medicines to treat a variety of ailments, including bruises, stiffness, indigestion, toothache, and diabetes.

Objective: It is to analyze the whole transcriptome and identify the genes related to the phenylpropanoid biosynthesis in the medicinally important herb E jolkini.

Methods: Paired-end Illumina HiSeq™ 2500 sequencing technology was employed for cDNA library construction and Illumina sequencing.

Genetic differentiation of Mutator insertion polymorphisms and association with agronomic traits in waxy and common maize.

Background: As waxy maize is considered a key economic crop in Korea, an understanding of its genetic variation and differentiation is fundamental for the selective plant breeding. The maize genome is primarily composed of transposable elements, for which large and stable insertions generate variations that reflect selection during evolution.

Objectives: This study was to elucidate the genetic diversity based on the contribution of TEs and to investigate the effect of Mu transposition on the genetic divergence of waxy and common maize.

The complete chloroplast genome of a rare species in Korea, Ker Gawl.

Ker Gawler is a wild lily species that belongs to section Sinomartagon and is one of the ancestors of the Asiatic hybrid lilies. Unique traits such as disease resistance and early flowering make a desirable resource for interspecific hybridization. However, in Korea, the natural resources of are being exhausted by excessive exploitation and require urgent conservation.

Construction of genetic linkage map and identification of QTLs related to agronomic traits in maize using DNA transposon-based markers.

Transposable elements (TEs), are a rich source for molecular marker development as they constitute a significant fraction of the eukaryotic genome and impact the overall genome structure. Here, we utilize based transposon display (-TD), and CACTA-derived sequence-characterized amplified regions (SCAR) anchored by simple sequence repeats and single nucleotide polymorphisms to locate quantitative trait loci (QTLs) linked to agriculturally important traits on a genetic map. Specifically, we studied recombinant inbred line populations derived from a cross between dent corn and waxy corn.

Mutator-Based Transposon Display: A Genetic Tool for Evolutionary and Crop-Improvement Studies in Maize.

Transposable elements account for up to 85% of the maize genome and have significant implications in crop-improvement and evolutionary analyses. The Mutator (Mu) transposon superfamily, a class of DNA transposons, comprises the most complex and active elements in the maize genome, suggesting a special role in plant evolution. Here, we designed a set of Mu-specific primers based on terminal invert repeats and used a transposon display (TD) method for genotyping.

Enrichment of genomic resources and identification of simple sequence repeats from medicinally important .

To broaden and delve into the genomic information of , an important medicinal plant in many Asian countries, RNA sequencing (RNA-seq) analysis was performed and a total of 16,638 non-redundant unigenes (≥ 300 bp) with an average length of 755 bp were generated by de novo assembly from 17,580,456 trimmed clear reads. The functional categorization of the identified unigenes by a gene ontology (GO) term resulted in 2305 genes in the cellular component, 5577 in the biological processes, and 8056 in the molecular functions, respectively. The top sub-category in biological processes was the metabolic process with 4374 genes.

Development of CACTA transposon derived SCAR markers and their use in population structure analysis in Zea mays.

Molecular marker technologies have proven to be an important breakthrough for genetic studies, construction of linkage maps and population genetics analysis. Transposable elements (TEs) constitute major fractions of repetitive sequences in plants and offer a wide range of possible areas to be explored as molecular markers. Sequence characterized amplified region (SCAR) marker development provides us with a simple and time saving alternative approach for marker development.