Your search keyword '"Chang, Yueh-Long"' showing total 10 results

1. Mapping quantitative trait loci underlying drought-related traits in rice using a doubled-haploid population

Author

Wongchuwech, Phichitra, Chen, Rong-Kuen, and Chang, Yueh-Long

Published

2022

2. Decoding the Impact of a Bacterial Strain of Micrococcus luteus on Arabidopsis Growth and Stress Tolerance.

Author

Chang, Yu-Cheng, Lee, Pin-Hsueh, Hsu, Chao-Liang, Wang, Wen-Der, Chang, Yueh-Long, and Chuang, Huey-wen

Subjects

VOLATILE organic compounds, METABOLITES, PLANT regulators, PLANT hormones, MICROCOCCUS luteus, ROOT hairs (Botany), ABSCISIC acid, ROOT development, SALICYLIC acid

Abstract

Microbes produce various bioactive metabolites that can influence plant growth and stress tolerance. In this study, a plant growth-promoting rhizobacterium (PGPR), strain S14, was identified as Micrococcus luteus (designated as MlS14) using de novo whole-genome assembly. The MlS14 genome revealed major gene clusters for the synthesis of indole-3-acetic acid (IAA), terpenoids, and carotenoids. MlS14 produced significant amounts of IAA, and its volatile organic compounds (VOCs), specifically terpenoids, exhibited antifungal activity, suppressing the growth of pathogenic fungi. The presence of yellow pigment in the bacterial colony indicated carotenoid production. Treatment with MlS14 activated the expression of β-glucuronidase (GUS) driven by a promoter containing auxin-responsive elements. The application of MlS14 reshaped the root architecture of Arabidopsis seedlings, causing shorter primary roots, increased lateral root growth, and longer, denser root hairs; these characteristics are typically controlled by elevated exogenous IAA levels. MlS14 positively regulated seedling growth by enhancing photosynthesis, activating antioxidant enzymes, and promoting the production of secondary metabolites with reactive oxygen species (ROS) scavenging activity. Pretreatment with MlS14 reduced H2O2 and malondialdehyde (MDA) levels in seedlings under drought and heat stress, resulting in greater fresh weight during the post-stress period. Additionally, exposure to MlS14 stabilized chlorophyll content and growth rate in seedlings under salt stress. MlS14 transcriptionally upregulated genes involved in antioxidant defense and photosynthesis. Furthermore, genes linked to various hormone signaling pathways, such as abscisic acid (ABA), auxin, jasmonic acid (JA), and salicylic acid (SA), displayed increased expression levels, with those involved in ABA synthesis, using carotenoids as precursors, being the most highly induced. Furthermore, MlS14 treatment increased the expression of several transcription factors associated with stress responses, with DREB2A showing the highest level of induction. In conclusion, MlS14 played significant roles in promoting plant growth and stress tolerance. Metabolites such as IAA and carotenoids may function as positive regulators of plant metabolism and hormone signaling pathways essential for growth and adaptation to abiotic stress. [ABSTRACT FROM AUTHOR]

Published

2024

3. Employing Genomic Tools to Explore the Molecular Mechanisms behind the Enhancement of Plant Growth and Stress Resilience Facilitated by a Burkholderia Rhizobacterial Strain.

Author

Chang, Yueh-Long, Chang, Yu-Cheng, Kurniawan, Andi, Chang, Po-Chun, Liou, Ting-Yu, Wang, Wen-Der, and Chuang, Huey-wen

Subjects

*SALICYLIC acid, *PLANT growth, *BURKHOLDERIA, *VOLATILE organic compounds, *WHOLE genome sequencing, *INDOLEACETIC acid, *GLUCOSINOLATES, *NITROGEN fixation

Abstract

The rhizobacterial strain BJ3 showed 16S rDNA sequence similarity to species within the Burkholderia genus. Its complete genome sequence revealed a 97% match with Burkholderia contaminans and uncovered gene clusters essential for plant-growth-promoting traits (PGPTs). These clusters include genes responsible for producing indole acetic acid (IAA), osmolytes, non-ribosomal peptides (NRPS), volatile organic compounds (VOCs), siderophores, lipopolysaccharides, hydrolytic enzymes, and spermidine. Additionally, the genome contains genes for nitrogen fixation and phosphate solubilization, as well as a gene encoding 1-aminocyclopropane-1-carboxylate (ACC) deaminase. The treatment with BJ3 enhanced root architecture, boosted vegetative growth, and accelerated early flowering in Arabidopsis. Treated seedlings also showed increased lignin production and antioxidant capabilities, as well as notably increased tolerance to water deficit and high salinity. An RNA-seq transcriptome analysis indicated that BJ3 treatment significantly activated genes related to immunity induction, hormone signaling, and vegetative growth. It specifically activated genes involved in the production of auxin, ethylene, and salicylic acid (SA), as well as genes involved in the synthesis of defense compounds like glucosinolates, camalexin, and terpenoids. The expression of AP2/ERF transcription factors was markedly increased. These findings highlight BJ3's potential to produce various bioactive metabolites and its ability to activate auxin, ethylene, and SA signaling in Arabidopsis, positioning it as a new Burkholderia strain that could significantly improve plant growth, stress resilience, and immune function. [ABSTRACT FROM AUTHOR]

Published

2024

4. The Fusarium graminearum Genome Reveals a Link between Localized Polymorphism and Pathogen Specialization

Author

Cuomo, Christina A., Güldener, Ulrich, Xu, Jin-Rong, Trail, Frances, Turgeon, B. Gillian, Di Pietro, Antonio, Walton, Jonathan D., Ma, Li-Jun, Baker, Scott E., Rep, Martijn, Adam, Gerhard, Antoniw, John, Baldwin, Thomas, Calvo, Sarah, Chang, Yueh-Long, DeCaprio, David, Gale, Liane R., Gnerre, Sante, Goswami, Rubella S., Hammond-Kosack, Kim, Harris, Linda J., Hilburn, Karen, Kennell, John C., Kroken, Scott, Magnuson, Jon K., Mannhaupt, Gertrud, Mauceli, Evan, Mewes, Hans-Werner, Mitterbauer, Rudolf, Muehlbauer, Gary, Münsterkötter, Martin, Nelson, David, O'Donnell, Kerry, Ouellet, Thérèse, Qi, Weihong, Quesneville, Hadi, Roncero, M. Isabel G., Seong, Kye-Yong, Tetko, Igor V., Urban, Martin, Waalwijk, Cees, Ward, Todd J., Yao, Jiqiang, Birren, Bruce W., and Kistler, H. Corby

Published

2007

5. The Weediness of Wild Plants: Molecular Analysis of Genes Influencing Dispersal and Persistence of Johnsongrass, Sorghum halepense (L.) Pers

Author

Paterson, Andrew H., Schertz, Keith F., Lin, Yann-Rong, Liu, Sin-Chieh, and Chang, Yueh-Long

Published

1995

6. Characterization of a plant-transformation-ready large-insert BIBAC library of Arabidopsis and bombardment transformation of a large-insert BIBAC of the library into tobacco

Author

Chang, Yueh-Long, Chuang, Huey-Wen, Meksem, Khalid, Wu, Fang-Chun, Chang, Chang-Yee, Zhang, Meiping, and Zhang, Hong-Bin

Subjects

Tobacco (Plant) -- Genetic aspects -- Research, Arabidopsis thaliana -- Genetic aspects -- Research, Genomic libraries -- Research, Biological sciences

Abstract

Plant-transformation-ready, large-insert binary bacterial artificial chromosome (BIBAC) libraries are of significance for functional and network analysis of large genomic regions, gene clusters, large-spanning genes, and complex loci in the postgenome era. Here, we report the characterization of a plant-transformation-ready BIBAC library of the sequenced Arabidopsis genome for which such a library is not available to the public, the transformation of a large-insert BIBAC of the library into tobacco by biolistic bombardment, and the expression analysis of its containing genes in transgenic plants. The BIBAC library was constructed from nuclear DNA partially digested with BamHI in the BIBAC vector pCLD04541. It contains 6144 clones and has a mean insert size of 108 kb, representing 5.2x equivalents of the Arabidopsis genome or a probability of greater than 99% of obtaining at least one positive clone from the library using a single-copy sequence as a probe. The transformation of the large-insert BIBAC and analyses of the transgenic plants showed that not only did transgenic plants have intact BIBAC DNA, but also could the BIBAC be transmitted stably into progenies and its containing genes be expressed actively. These results suggest that the large-insert BIBAC library, combined with the biolistic bombardment transformation method, could provide a useful tool for large-scale functional analysis of the Arabidopsis genome sequence and applications in plant-molecular breeding. Key words: Arabidopsis thaliana, high-molecular-mass DNA transformation, binary bacterial artificial chromosome, functional genomics, molecular breeding. En cette ere post-genomique, les banques de clones avec des inserts de grande taille dans des chromosomes bacteriens artificiels competents en vue de la transformation vegetale (BIBAC) sont importantes en vue d'analyses fonctionnelles et de reseaux portant sur de grandes regions genomiques, des amas de genes, des genes de grande taille et des locus complexes. Les auteurs decrivent ici la caracterisation d'une banque de clones BIBAC pour le genome sequence d'Arabidopsis, une espece pour laquelle une telle ressource n'existait pas dans le domaine publique. Les auteurs decrivent la transformation du tabac par biolistique a l'aide d'un grand clone BIBAC et l'analyse subsequente de l'expression des genes introduits chez les plantes transgeniques. La banque BIBAC a ete produite a partir d'ADN nucleaire partiellement digere avec BamHI, lequel a ete introduit dans le vecteur BIBAC pCLD04541. La banque totalise 6144 clones dont la taille moyenne est de 108 kb, ce qui correspond a une couverture de 5,2x du genome d'Arabidopsis et qui confere une probabilite de 99% d'identifier au moins un clone positif en employant comme sonde une sequence presente en simple copie. La transformation avec un clone BIBAC et l'analyse des plantes transgeniques obtenues ont montre que non seulement ces plantes possedaient l'insert BIBAC intact, mais aussi que l'insert BIBAC etait transmis de maniere stable et que les genes continuaient de s'exprimer activement. Ces resultats suggerent que cette banque BIBAC a grands inserts, combinee avec la transformation biolistique, fournissent un outil precieux pour l'analyse fonctionnelle a grande echelle du genome d'Arabidopsis et ouvre la voie a des applications en amelioration genetique. Mots-cles: Arabidopsis thaliana, transformation avec de l'ADN de grande taille, chromosomes bacteriens artificiels et binaires, genomique fonctionnelle, amelioration genetique assistee d'outils moleculaires. [Traduit par la Redaction], Introduction As numerous genomes are being sequenced and decoded rapidly, significant challenges have arisen on how to functionally characterize and efficiently use the sequences in plant genetic improvement. Multiple approaches [...]

Published

2011

7. Genetic Diversity and Sectional Relationships from an Amplified Fragment Length Polymorphism Analysis of Taiwan Bananas

Author

Chang, Shu-Fen, Chang, Yueh-Long, Yen, Yung-Fu, Miyajima, Ikuo, and Huang, Kuang-Liang

Subjects

banana, phylogenetic relationships, food and beverages, Musa, amplified fragment length polymorphism

Published

2017

8. Bacterial artificial chromosome–based physical map of Gibberella zeae (Fusarium graminearum)

Author

Chang, Yueh-Long, Cho, Seungho, Kistler, H. Corby, Hsieh, Chun-Sheng, and Muehlbauer, Gary J.

Published

2007

9. Transcriptome analysis of cadmium response in Ganoderma lucidum.

Author

Chuang, Huey-Wen, Wang, I-Wen, Lin, Shen-Yao, and Chang, Yueh-Long

Subjects

GANODERMA lucidum, CADMIUM, FUNGI, GENETIC polymorphisms, PROTEOLYSIS, DNA repair, PROTEIN conformation, CYSTEINE proteinases, METAL toxicology

Abstract

Ganoderma species are white-rot fungi widespread throughout the world. In this study, a wild isolate of Ganoderma lucidum was first collected and its tolerance was tested in a medium containing 3.0 mM CdCl2. The cDNA-amplified fragment length polymorphism method was conducted to analyze the transcription profiling of this Ganoderma species in response to Cd treatment. In total, 12 925 transcript-derived fragments (TDFs) were amplified using 256 primer combinations. Forty-nine differentially expressed TDFs were confirmed by DNA dot-blot analysis. Northern blot analysis was used to verify the transcription levels of 34 Cd-inducible TDFs. Sequence analysis indicated that genes involved in reactive oxygen species generation, synthesis of sulfur-containing metabolites, translation machinery, DNA repair, transporting system, proteolysis pathway, mitochondria function, and cell wall biosynthesis were upregulated by Cd treatment. Our results provide a genome-wide transcriptome profiling of Cd response in Ganoderma species. [ABSTRACT FROM AUTHOR]

Published

2009

10. Transcriptome analysis of auxin-regulated genes of Arabidopsis thaliana

Author

Huang, Yung-Chieh, Chang, Yueh-Long, Hsu, Jen-Jen, and Chuang, Huey-wen

Subjects

*PLANT hormones, *DEVELOPMENTAL biology, *BIOCHEMISTRY, *PLANT regulators

Abstract

Abstract: Plant hormone auxin elicits diverse responses in plant growth and development. Accumulated data indicate that the ubiquitin-mediated proteolytic pathway plays a crucial role in transducing auxin signaling. To gain more understanding of the molecular mechanisms underlying auxin action, we performed a comparative transcriptome analysis of auxin responsive genes between Arabidopsis Columbia ecotype and the auxin insensitive mutant eta2 by cDNA-AFLP. Using 256 primer combinations, about 5900 transcript-derived fragments (TDFs) were amplified. Sixty-six differentially expressed TDFs were confirmed by DNA dot blot analysis. Sequence analysis indicated that, a large number of genes involved in transcription regulation or RNA metabolism were identified as auxin-regulated genes. Northern blot analyses confirmed transcription levels of 16 auxin-regulated genes. These genes include various forms of transcription regulators, defense related, RING-type ubiquitin ligases, and glycosyl hydrolase. This study demonstrates that auxin exerts its effect in complex transcriptional networks. [Copyright &y& Elsevier]

Published

2008