발행물

전체 논문

84

1

Admixture of divergent genomes facilitates hybridization across species in the family Brassicaceae
1970

2

Admixture of divergent genomes facilitates hybridization across species in the family Brassicaceae.
Shin H, Park JE, Park HR, Choi WL, Yu SH, Koh W, Kim S, Soh H, Waminal NE, Belandres HR, Lim JY, Yi G, Ahn JH, Kim JS, Kim YM, Koo N, Kim K, Perumal S, Kang T, Kim J, Jang H, Kang DH, Kim YS, Jeong HM, Yang J, Song S, Park S, Kim JA, Lim YP, Park BS, Hsieh TF, Yang TJ, Choi D, Kim HH, Lee SS, Huh JH
New Phytol., 2022

3

Epigenome editing: targeted manipulation of epigenetic modifications in plants.
Shin H, Choi WL, Lim JY, Huh JH
Genes & Genomics, 2022

4

Reduced fertility caused by meiotic defects and micronuclei formation during microsporogenesis in xBrassicoraphanus.
Shin H, Park HR, Park JE, Yu SH, Yi G, Kim JH, Koh W, Kim HH, Lee SS, Huh JH
Genes & Genomics, 2021

5

Application of 5-Methylcytosine DNA Glycosylase to the Quantitative Analysis of DNA Methylation.
Choi WL, Mok YG, Huh JH
Int. J. Mol. Sci., 2021

6

Meiotic chromosome stability and suppression of crossover between non-homologous chromosomes in xBrassicoraphanus, an intergeneric allotetraploid derived from a cross between Brassica rapa and Raphanus sativus.
Park HR, Park JE, Kim JH, Shin H, Yu SH, Son S, Yi G, Lee SS, Kim HH, Huh JH
Front. Plant Sci., 2020

7

Properties of self‑sterile but cross‑fertile allopolyploids synthesized between Brassica rapa and Raphanus sativus.
Lee SS, Son CY, Kim J, Park JE, Yu SH, Yi G, Huh JH
Hort. Environ. Biotechnol., 2020

8

Deficiency of rice hexokinase HXK5 impairs synthesis and utilization of starch in pollen grains and causes male sterility.
Lee SK, Kim H, Cho JI, Nguyen CD, Moon S, Park JE, Park HR, Huh JH, Jung KH, Guiderdoni E, Jeon JS
J. Exp. Bot., 2020

9

A genetic characterization of Korean waxy maize (Zea mays L.) landraces having flowering time variation by RNA sequencing.
Yi G, Shin H, Yu SH, Park JE, Kang T, Huh JH
Sci. Rep., 2019

10

Genome divergence in Brassica rapa subspecies revealed by whole genome analysis on a doubled-haploid line of turnip.
Park HR, Kang T, Yi G, Yu SH, Shin H, Kim GW, Park JE, Kim YS, Huh JH
Plant Biotechnol Rep., 2019