Your search keyword '"Jung, Harin"' showing total 39 results

1. Overexpression of the OsERF71 Transcription Factor Alters Rice Root Structure and Drought Resistance

Author

Lee, Dong-Keun, Jung, Harin, Jang, Geupil, Jeong, Jin Seo, Kim, Youn Shic, Ha, Sun-Hwa, Choi, Yang Do, and Kim, Ju-Kon

Published

2016

2. Erratum to: Characterization of the stress-inducible OsNCED3 promoter in different transgenic rice organs and over three homozygous generations

Author

Bang, Seung Woon, Park, Su-Hyun, Jeong, Jin Seo, Kim, Youn Shic, Jung, Harin, Ha, Sun-Hwa, and Kim, Ju-Kon

Published

2014

3. Production of insect-resistant transgenic rice plants for use in practical agriculture

Author

Lee, Dong-Keun, Park, Su-Hyun, Seong, So-Yoon, Kim, Youn Shic, Jung, Harin, Do Choi, Yang, and Kim, Ju-Kon

Published

2016

4. Characterization of the stress-inducible OsNCED3 promoter in different transgenic rice organs and over three homozygous generations

Author

Bang, Seung Woon, Park, Su-Hyun, Jeong, Jin Seo, Kim, Youn Shic, Jung, Harin, Ha, Sun-Hwa, and Kim, Ju-Kon

Published

2013

5. Posttranscriptional Control of Photosynthetic mRNA Decay under Stress Conditions Requires 3' and 5' Untranslated Regions and Correlates with Differential Polysome Association in Rice

Author

Park, Su-Hyun, Chung, Pil Joong, Juntawong, Piyada, Bailey-Serres, Julia, Kim, Youn Shic, Jung, Harin, Bang, Seung Woon, Kim, Yeon-Ki, Choi, Yang Do, and Kim, Ju-Kon

Published

2012

6. Analysis of the APX, PGD1 and R1G1B constitutive gene promoters in various organs over three homozygous generations of transgenic rice plants

Author

Park, Su-Hyun, Bang, Seung Woon, Jeong, Jin Seo, Jung, Harin, Redillas, Mark Christian Felipe Reveche, Kim, Hyung Il, Lee, Kang Hyun, Kim, Youn Shic, and Kim, Ju-Kon

Published

2012

7. Functional analysis of six drought-inducible promoters in transgenic rice plants throughout all stages of plant growth

Author

Yi, Nari, Kim, Youn Shic, Jeong, Min-Ho, Oh, Se-Jun, Jeong, Jin Seo, Park, Su-Hyun, Jung, Harin, Choi, Yang Do, and Kim, Ju-Kon

Published

2010

8. Root-Specific Expression of OsNAC10 Improves Drought Tolerance and Grain Yield in Rice under Field Drought Conditions

Author

Jeong, Jin Seo, Kim, Youn Shic, Baek, Kwang Hun, Jung, Harin, Ha, Sun-Hwa, Choi, Yang Do, Kim, Minkyun, Reuzeau, Christophe, and Kim, Ju-Kon

Published

2010

9. Heterologous expression of cyanobacterial gas vesicle proteins in Saccharomyces cerevisiae

Author

Jung, Harin, primary, Ling, Hua, additional, Tan, Yong Quan, additional, Chua, Nam‐Hai, additional, Yew, Wen Shan, additional, and Chang, Matthew Wook, additional

Published

2021

10. Characterization of the root-predominant gene promoter HPX1 in transgenic rice plants

Author

Park, Su-Hyun, Jeong, Jin Seo, Han, Eun Hyang, Redillas, Mark C. F. R., Bang, Seung Woon, Jung, Harin, Kim, Youn Shic, and Kim, Ju-Kon

Published

2013

11. Transgenic overexpression of UIP1, an interactor of the 3′ untranslated region of the Rubisco small subunit mRNA, increases rice tolerance to drought

Author

Park, Su-Hyun, Jeong, Jin Seo, Redillas, Mark C. F. R., Jung, Harin, Bang, Seung Woon, Kim, Youn Shic, and Kim, Ju-Kon

Published

2013

12. Accumulation of trehalose increases soluble sugar contents in rice plants conferring tolerance to drought and salt stress

Author

Redillas, Mark C. F. R., Park, Su-Hyun, Lee, Jang Wook, Kim, Youn Shic, Jeong, Jin Seo, Jung, Harin, Bang, Seung Woon, Hahn, Tae-Ryong, and Kim, Ju-Kon

Published

2012

13. Use of animal viral internal ribosome entry site sequence makes multiple truncated transcripts without mediating polycistronic expression in rice

Author

Jung, Harin, Kim, Ju-Kon, and Ha, Sun-Hwa

Published

2011

14. Rice NAC proteins act as homodimers and heterodimers

Author

Jeong, Jin Seo, Park, Yeong Taek, Jung, Harin, Park, Su-Hyun, and Kim, Ju-Kon

Published

2009

15. Gas vesicle protein expression for reconstitution of synthetic gas vesicles in yeast

Author

Jung, Harin, primary, Ling, Hua, additional, Tan, Yong Quan, additional, Chua, Nam-Hai, additional, Yew, Wen Shan, additional, and Chang, Matthew, additional

Published

2021

16. Efficiency of Recombinant CRISPR/rCas9-Mediated miRNA Gene Editing in Rice

Author

Chung, Pil Joong, primary, Chung, Hoyong, additional, Oh, Nuri, additional, Choi, Joohee, additional, Bang, Seung Woon, additional, Jung, Se Eun, additional, Jung, Harin, additional, Shim, Jae Sung, additional, and Kim, Ju-Kon, additional

Published

2020

17. Allantoin accumulation through overexpression of ureide permease1 improves rice growth under limited nitrogen conditions

Author

Redillas, Mark Christian Felipe R., primary, Bang, Seung Woon, additional, Lee, Dong‐Keun, additional, Kim, Youn Shic, additional, Jung, Harin, additional, Chung, Pil Joong, additional, Suh, Joo‐Won, additional, and Kim, Ju‐Kon, additional

Published

2019

18. Overexpression of OsTF1L, a rice HD-Zip transcription factor, promotes lignin biosynthesis and stomatal closure that improves drought tolerance

Author

Bang, Seung Woon, primary, Lee, Dong-Keun, additional, Jung, Harin, additional, Chung, Pil Joong, additional, Kim, Youn Shic, additional, Choi, Yang Do, additional, Suh, Joo-Won, additional, and Kim, Ju-Kon, additional

Published

2018

19. A Nitrogen Molecular Sensing System, Comprised of the ALLANTOINASE and UREIDE PERMEASE 1 Genes, Can Be Used to Monitor N Status in Rice

Author

Lee, Dong-Keun, primary, Redillas, Mark C. F. R., additional, Jung, Harin, additional, Choi, Seowon, additional, Kim, Youn Shic, additional, and Kim, Ju-Kon, additional

Published

2018

20. Genome-wide analyses of direct target genes of four rice NAC-domain transcription factors involved in drought tolerance

Author

Chung, Pil Joong, primary, Jung, Harin, additional, Choi, Yang Do, additional, and Kim, Ju-Kon, additional

Published

2018

21. Overexpression of OsERF48 causes regulation of OsCML16 , a calmodulin-like protein gene that enhances root growth and drought tolerance

Author

Jung, Harin, primary, Chung, Pil Joong, additional, Park, Su-Hyun, additional, Redillas, Mark Christian Felipe Reveche, additional, Kim, Youn Shic, additional, Suh, Joo-Won, additional, and Kim, Ju-Kon, additional

Published

2017

22. The rice OsNAC6 transcription factor orchestrates multiple molecular mechanisms involving root structural adaptions and nicotianamine biosynthesis for drought tolerance

Author

Lee, Dong-Keun, primary, Chung, Pil Joong, additional, Jeong, Jin Seo, additional, Jang, Geupil, additional, Bang, Seung Woon, additional, Jung, Harin, additional, Kim, Youn Shic, additional, Ha, Sun-Hwa, additional, Choi, Yang Do, additional, and Kim, Ju-Kon, additional

Published

2017

23. Overexpression of OsTF1L, a rice HD‐Zip transcription factor, promotes lignin biosynthesis and stomatal closure that improves drought tolerance.

Author

Bang, Seung Woon, Lee, Dong‐Keun, Jung, Harin, Chung, Pil Joong, Kim, Youn Shic, Choi, Yang Do, Suh, Joo‐Won, and Kim, Ju‐Kon

Subjects

BIOSYNTHESIS, RICE genetics, PLANT development, TRANSCRIPTION factors, DROUGHT tolerance

Abstract

Summary: Drought stress seriously impacts on plant development and productivity. Improvement of drought tolerance without yield penalty is a great challenge in crop biotechnology. Here, we report that the rice (Oryza sativa) homeodomain‐leucine zipper transcription factor gene, OsTF1L (Oryza sativa transcription factor 1‐like), is a key regulator of drought tolerance mechanisms. Overexpression of the OsTF1L in rice significantly increased drought tolerance at the vegetative stages of growth and promoted both effective photosynthesis and a reduction in the water loss rate under drought conditions. Importantly, the OsTF1L overexpressing plants showed a higher drought tolerance at the reproductive stage of growth with a higher grain yield than nontransgenic controls under field‐drought conditions. Genomewide analysis of OsTF1L overexpression plants revealed up‐regulation of drought‐inducible, stomatal movement and lignin biosynthetic genes. Overexpression of OsTF1L promoted accumulation of lignin in shoots, whereas the RNAi lines showed opposite patterns of lignin accumulation. OsTF1L is mainly expressed in outer cell layers including the epidermis, and the vasculature of the shoots, which coincides with areas of lignification. In addition, OsTF1L overexpression enhances stomatal closure under drought conditions resulted in drought tolerance. More importantly, OsTF1L directly bound to the promoters of lignin biosynthesis and drought‐related genes involving poxN/PRX38, Nodulin protein,DHHC4,CASPL5B1 and AAA‐type ATPase. Collectively, our results provide a new insight into the role of OsTF1L in enhancing drought tolerance through lignin biosynthesis and stomatal closure in rice. [ABSTRACT FROM AUTHOR]

Published

2019

24. Transcriptome profiling of drought responsive noncoding RNAs and their target genes in rice

Author

Chung, Pil Joong, primary, Jung, Harin, additional, Jeong, Dong-Hoon, additional, Ha, Sun-Hwa, additional, Choi, Yang Do, additional, and Kim, Ju-Kon, additional

Published

2016

25. The NF-YA transcription factor OsNF-YA7 confers drought stress tolerance of rice in an abscisic acid independent manner

Author

Lee, Dong-Keun, primary, Kim, Hyung Il, additional, Jang, Geupil, additional, Chung, Pil Joong, additional, Jeong, Jin Seo, additional, Kim, Youn Shic, additional, Bang, Seung Woon, additional, Jung, Harin, additional, Choi, Yang Do, additional, and Kim, Ju-Kon, additional

Published

2015

26. OsIAA6, a member of the rice Aux/IAA gene family, is involved in drought tolerance and tiller outgrowth

Author

Jung, Harin, primary, Lee, Dong-Keun, additional, Choi, Yang Do, additional, and Kim, Ju-Kon, additional

Published

2015

27. Overexpression of Os ERF48 causes regulation of Os CML16, a calmodulin-like protein gene that enhances root growth and drought tolerance.

Author

Jung, Harin, Chung, Pil Joong, Park, Su‐Hyun, Redillas, Mark Christian Felipe Reveche, Kim, Youn Shic, Suh, Joo‐Won, and Kim, Ju‐Kon

Subjects

*CALMODULIN, *ROOT growth, *DROUGHT tolerance, *GENE expression in plants, *TRANSCRIPTION factors

Abstract

The AP2/ ERF family is a plant-specific transcription factor family whose members have been associated with various developmental processes and stress tolerance. Here, we functionally characterized the drought-inducible Os ERF48, a group Ib member of the rice ERF family with four conserved motifs, CMI-1, -2, -3 and -4. A transactivation assay in yeast revealed that the C-terminal CMI-1 motif was essential for Os ERF48 transcriptional activity. When Os ERF48 was overexpressed in an either a root-specific ( ROX O s ERF 48) or whole-body ( OX O s ERF 48) manner, transgenic plants showed a longer and denser root phenotype compared to the nontransgenic ( NT) controls. When plants were grown on a 40% polyethylene glycol-infused medium under in vitro drought conditions, ROX O s ERF 48 plants showed a more vigorous root growth than OX O s ERF 48 and NT plants. In addition, the ROX O s ERF 48 plants exhibited higher grain yield than OX O s ERF 48 and NT plants under field-drought conditions. We constructed a putative Os ERF48 regulatory network by cross-referencing ROX O s ERF 48 root-specific RNA-seq data with a co-expression network database, from which we inferred the involvement of 20 drought-related genes in Os ERF48-mediated responses. These included genes annotated as being involved in stress signalling, carbohydrate metabolism, cell-wall proteins and drought responses. They included, Os CML16, a key gene in calcium signalling during abiotic stress, which was shown to be a direct target of Os ERF48 by chromatin immunoprecipitation- qPCR analysis and a transient protoplast expression assay. Our results demonstrated that Os ERF48 regulates Os CML16, a calmodulin-like protein gene that enhances root growth and drought tolerance. [ABSTRACT FROM AUTHOR]

Published

2017

28. The rice Os NAC6 transcription factor orchestrates multiple molecular mechanisms involving root structural adaptions and nicotianamine biosynthesis for drought tolerance.

Author

Lee, Dong‐Keun, Chung, Pil Joong, Jeong, Jin Seo, Jang, Geupil, Bang, Seung Woon, Jung, Harin, Kim, Youn Shic, Ha, Sun‐Hwa, Choi, Yang Do, and Kim, Ju‐Kon

Subjects

TRANSCRIPTION factors, NICOTIANAMINE, CROPS, DROUGHT tolerance, PLANT root anatomy, RICE yields

Abstract

Drought has a serious impact on agriculture worldwide. A plant's ability to adapt to rhizosphere drought stress requires reprogramming of root growth and development. Although physiological studies have documented the root adaption for tolerance to the drought stress, underlying molecular mechanisms is still incomplete, which is essential for crop engineering. Here, we identified Os NAC6-mediated root structural adaptations, including increased root number and root diameter, which enhanced drought tolerance. Multiyear drought field tests demonstrated that the grain yield of Os NAC6 root-specific overexpressing transgenic rice lines was less affected by drought stress than were nontransgenic controls. Genome-wide analyses of loss- and gain-of-function mutants revealed that Os NAC6 up-regulates the expression of direct target genes involved in membrane modification, nicotianamine ( NA) biosynthesis, glutathione relocation, 3′-phophoadenosine 5′-phosphosulphate accumulation and glycosylation, which represent multiple drought tolerance pathways. Moreover, overexpression of NICOTIANAMINE SYNTHASE genes, direct targets of Os NAC6, promoted the accumulation of the metal chelator NA and, consequently, drought tolerance. Collectively, Os NAC6 orchestrates novel molecular drought tolerance mechanisms and has potential for the biotechnological development of high-yielding crops under water-limiting conditions. [ABSTRACT FROM AUTHOR]

Published

2017

29. Oryza sativa COI Homologues Restore Jasmonate Signal Transduction in Arabidopsis coi1-1 Mutants

Author

Lee, Han Yong, primary, Seo, Ju-Seok, additional, Cho, Jang Hee, additional, Jung, Harin, additional, Kim, Ju-Kon, additional, Lee, Jong Seob, additional, Rhee, Sangkee, additional, and Do Choi, Yang, additional

Published

2013

30. Characterization of the root-predominant gene promoter HPX1 in transgenic rice plants

Author

Park, Su-Hyun, primary, Jeong, Jin Seo, additional, Han, Eun Hyang, additional, Redillas, Mark C. F. R., additional, Bang, Seung Woon, additional, Jung, Harin, additional, Kim, Youn Shic, additional, and Kim, Ju-Kon, additional

Published

2012

31. OsNAC5 overexpression enlarges root diameter in rice plants leading to enhanced drought tolerance and increased grain yield in the field

Author

Jeong, Jin Seo, primary, Kim, Youn Shic, additional, Redillas, Mark C. F. R., additional, Jang, Geupil, additional, Jung, Harin, additional, Bang, Seung Woon, additional, Choi, Yang Do, additional, Ha, Sun‐Hwa, additional, Reuzeau, Christophe, additional, and Kim, Ju‐Kon, additional

Published

2012

32. Characterization of the stress-inducible OsNCED3 promoter in different transgenic rice organs and over three homozygous generations

Author

Bang, Seung Woon, primary, Park, Su-Hyun, additional, Jeong, Jin Seo, additional, Kim, Youn Shic, additional, Jung, Harin, additional, Ha, Sun-Hwa, additional, and Kim, Ju-Kon, additional

Published

2012

33. Transgenic overexpression of UIP1, an interactor of the 3′ untranslated region of the Rubisco small subunit mRNA, increases rice tolerance to drought

Author

Park, Su-Hyun, primary, Jeong, Jin Seo, additional, Redillas, Mark C. F. R., additional, Jung, Harin, additional, Bang, Seung Woon, additional, Kim, Youn Shic, additional, and Kim, Ju-Kon, additional

Published

2012

34. The overexpression ofOsNAC9alters the root architecture of rice plants enhancing drought resistance and grain yield under field conditions

Author

Redillas, Mark C.F.R., primary, Jeong, Jin S., additional, Kim, Youn S., additional, Jung, Harin, additional, Bang, Seung W., additional, Choi, Yang D., additional, Ha, Sun-Hwa, additional, Reuzeau, Christophe, additional, and Kim, Ju-Kon, additional

Published

2012

35. Accumulation of trehalose increases soluble sugar contents in rice plants conferring tolerance to drought and salt stress

Author

Redillas, Mark C. F. R., primary, Park, Su-Hyun, additional, Lee, Jang Wook, additional, Kim, Youn Shic, additional, Jeong, Jin Seo, additional, Jung, Harin, additional, Bang, Seung Woon, additional, Hahn, Tae-Ryong, additional, and Kim, Ju-Kon, additional

Published

2011

36. Application of two bicistronic systems involving 2A and IRES sequences to the biosynthesis of carotenoids in rice endosperm

Author

Ha, Sun-Hwa, primary, Liang, Ying Shi, additional, Jung, Harin, additional, Ahn, Mi-Jeong, additional, Suh, Seok-Cheol, additional, Kweon, Soon-Jong, additional, Kim, Dong-Hern, additional, Kim, Young-Mi, additional, and Kim, Ju-Kon, additional

Published

2010

37. Root-Specific Expression ofOsNAC10Improves Drought Tolerance and Grain Yield in Rice under Field Drought Conditions

Author

Jeong, Jin Seo, primary, Kim, Youn Shic, additional, Baek, Kwang Hun, additional, Jung, Harin, additional, Ha, Sun-Hwa, additional, Do Choi, Yang, additional, Kim, Minkyun, additional, Reuzeau, Christophe, additional, and Kim, Ju-Kon, additional

Published

2010

38. OsNAC5 overexpression enlarges root diameter in rice plants leading to enhanced drought tolerance and increased grain yield in the field.

Author

Jeong, Jin Seo, Kim, Youn Shic, Redillas, Mark C. F. R., Jang, Geupil, Jung, Harin, Bang, Seung Woon, Choi, Yang Do, Ha, Sun‐Hwa, Reuzeau, Christophe, and Kim, Ju‐Kon

Subjects

GENE expression, PLANT roots, DROUGHT-tolerant plants, AGRICULTURAL productivity, RICE yields, TRANSGENIC rice

Abstract

Drought conditions are among the most serious challenges to crop production worldwide. Here, we report the results of field evaluations of transgenic rice plants overexpressing OsNAC5, under the control of either the root-specific ( RCc3) or constitutive ( GOS2) promoters. Field evaluations over three growing seasons revealed that the grain yield of the RCc3:OsNAC5 and GOS2:OsNAC5 plants were increased by 9%-23% and 9%-26% under normal conditions, respectively. Under drought conditions, however, RCc3:OsNAC5 plants showed a significantly higher grain yield of 22%-63%, whilst the GOS2:OsNAC5 plants showed a reduced or similar yield to the nontransgenic ( NT) controls. Both the RCc3:OsNAC5 and GOS2:OsNAC5 plants were found to have larger roots due to an enlarged stele and aerenchyma at flowering stage. Cell numbers per cortex layer and stele of developing roots were higher in both transgenic plants than NT controls, contributing to the increase in root diameter. The root diameter was enlarged to a greater extent in the RCc3:OsNAC5, suggesting the importance of this phenotype for enhanced drought tolerance. Microarray experiments identified 25 up-regulated genes by more than three-fold ( P < 0.01) in the roots of both transgenic lines. Also identified were 19 and 18 up-regulated genes that are specific to the RCc3:OsNAC5 and GOS2:OsNAC5 roots, respectively. Of the genes specifically up-regulated in the RCc3:OsNAC5 roots, GLP, PDX, MERI5 and O-methyltransferase were implicated in root growth and development. Our present findings demonstrate that the root-specific overexpression of OsNAC5 enlarges roots significantly and thereby enhances drought tolerance and grain yield under field conditions. [ABSTRACT FROM AUTHOR]

Published

2013

39. The overexpression of OsNAC9 alters the root architecture of rice plants enhancing drought resistance and grain yield under field conditions.

Author

Redillas, Mark C.F.R., Jeong, Jin S., Kim, Youn S., Jung, Harin, Bang, Seung W., Choi, Yang D., Ha, Sun‐Hwa, Reuzeau, Christophe, and Kim, Ju‐Kon

Subjects

GENE expression, PLANTING, RICE, DROUGHT tolerance, GRAIN, AGRICULTURAL productivity, TRANSGENIC rice, ABSCISIC acid, LIGNINS

Abstract

Drought conditions limit agricultural production by preventing crops from reaching their genetically predetermined maximum yields. Here, we present the results of field evaluations of rice overexpressing OsNAC9, a member of the rice NAC domain family. Root-specific ( RCc3) and constitutive ( GOS2) promoters were used to overexpress OsNAC9 and produced the transgenic RCc3:OsNAC9 and GOS2:OsNAC9 plants. Field evaluations over two cultivating seasons showed that grain yields of the RCc3:OsNAC9 and the GOS2:OsNAC9 plants were increased by 13%-18% and 13%-32% under normal conditions, respectively. Under drought conditions, RCc3:OsNAC9 plants showed an increased grain yield of 28%-72%, whilst the GOS2:OsNAC9 plants remained unchanged. Both transgenic lines exhibited altered root architecture involving an enlarged stele and aerenchyma. The aerenchyma of RCc3:OsNAC9 roots was enlarged to a greater extent than those of GOS2:OsNAC9 and non-transgenic (NT) roots, suggesting the importance of this phenotype for enhanced drought resistance. Microarray experiments identified 40 up-regulated genes by more than threefold ( P < 0.01) in the roots of both transgenic lines. These included 9-cis-epoxycarotenoid dioxygenase, an ABA biosynthesis gene, calcium-transporting ATPase, a component of the Ca2+ signalling pathway involved in cortical cell death and aerenchyma formation, cinnamoyl CoA reductase 1, a gene involved in lignin biosynthesis, and wall-associated kinases¸ genes involved in cell elongation and morphogenesis. Interestingly, O-methyltransferase, a gene necessary for barrier formation, was specifically up-regulated only in the RCc3:OsNAC9 roots. Such up-regulated genes that are commonly and specifically up-regulated in OsNAC9 transgenic roots may account for the altered root architecture conferring increased drought resistance phenotype. [ABSTRACT FROM AUTHOR]

Published

2012