Your search keyword '"Jin, Huanan"' showing total 26 results

1. Earthworms promote crop growth by enhancing the connections among soil microbial communities.

Author

Shi, Jin‐Hua, Hu, Xin‐Jun, Zeng, Zi‐Xuan, Sun, Ze, Wang, Chao, Abdelnabby, Hazem, Jin, Huanan, and Wang, Man‐Qun

Subjects

PLANT exudates, SOIL microbiology, FERTILIZER application, CROP growth, ORGANIC fertilizers

Abstract

Earthworms benefit plant growth and play a vital role in shaping soil microbial communities. However, how earthworms modify the soil microorganisms and thus affect plant growth is still unclear. Although fertilizers alter the assembly of microbial communities, further investigations are required to test the effect of fertilizer type on the relationship between earthworms, soil microbial communities and plants.We evaluated the role of earthworms in soil microorganisms and maize plant growth characteristics under organic or chemical fertilizers in field and greenhouse experiments. We explored the relationships between earthworms, soil microbial community and plant growth under different fertilizer types.We found that the presence of earthworms promoted plant growth, increased the amount of plant root exudates, and enhanced the connections between rhizosphere bacterial, fungal and protist communities. Both earthworms and fertilizer application significantly changed the structure of soil bacterial, fungal and protist communities. The complexity of the soil microbial community network increased under organic, compared to chemical fertilizer application. The greenhouse experiment showed that the effect of earthworms on plant growth was weakened when maize plants were grown in sterilized soil under organic or chemical fertilizers.Synthesis and applications: Our study provides solid evidence that earthworms largely depend on soil microorganisms for their effects on plants under the application of different fertilizer conditions. This may provide new insights into reducing the amounts of fertilizer used by enhancing the role of earthworms and soil microorganisms. [ABSTRACT FROM AUTHOR]

Published

2024

2. Botrytis cinerea type II inhibitor of apoptosis BcBIR1 enhances the biocontrol capacity of Coniothyrium minitans

Author

Wu, Jianing, primary, Xin, Ruolong, additional, Jiang, Yachan, additional, Jin, Huanan, additional, Liu, Hao, additional, Zhang, Hongxiang, additional, Jiang, Daohong, additional, Fu, Yanping, additional, Xie, Jiatao, additional, Cheng, Jiasen, additional, and Lin, Yang, additional

Published

2024

3. An Investigation of the JAZ Family and the CwMYC2-like Protein to Reveal Their Regulation Roles in the MeJA-Induced Biosynthesis of β-Elemene in Curcuma wenyujin

Author

Liu, Yuyang, primary, Wu, Shiyi, additional, Lan, Kaer, additional, Wang, Qian, additional, Ye, Tingyu, additional, Jin, Huanan, additional, Hu, Tianyuan, additional, Xie, Tian, additional, Wei, Qiuhui, additional, and Yin, Xiaopu, additional

Published

2023

4. Unprecedented oviposition tactics avoid plant defences and reduce attack by parasitic wasps

Author

Shi, Jin‐Hua, primary, Sun, Ze, additional, Pickett, John A., additional, Hu, Xin‐Jun, additional, Wang, Chao, additional, Liu, Le, additional, Jin, Huanan, additional, Abdelnabby, Hazem, additional, Foba, Caroline Ngichop, additional, Yang, Xue‐Qing, additional, Chang, Xiang‐Qian, additional, and Wang, Man‐Qun, additional

Published

2023

5. Discovery and Characterization of the 3-Hydroxyacyl-ACP Dehydratase Component of the Plant Mitochondrial Fatty Acid Synthase System

Author

Guan, Xin, Okazaki, Yozo, Lithio, Andrew, Li, Ling, Zhao, Xuefeng, Jin, Huanan, Nettleton, Dan, Saito, Kazuki, and Nikolau, Basil J.

Published

2017

6. Unprecedented oviposition tactics avoid plant defences and reduce attack by parasitic wasps.

Author

Shi, Jin‐Hua, Sun, Ze, Pickett, John A., Hu, Xin‐Jun, Wang, Chao, Liu, Le, Jin, Huanan, Abdelnabby, Hazem, Foba, Caroline Ngichop, Yang, Xue‐Qing, Chang, Xiang‐Qian, and Wang, Man‐Qun

Subjects

PLANT defenses, PARASITIC wasps, OVIPARITY, JASMONIC acid, TRICHOGRAMMA, HERBIVORES, ACETOPHENONE, LARVAE, PLANT nematodes

Abstract

Female insects oviposit in sites suitable for the development of their offspring. The Oriental armyworm, Mythimna separata is a serious pest of various crops including wheat and prefers to oviposit on withered leaves rather than on fresh plant material, which is surprisingly different from other insects. Studies here showed that this oviposition tactic enables avoidance of wheat defence against eggs and emerged larvae. Intact plants responded to M. separata egg deposition by releasing oviposition‐induced plant volatiles including acetophenone, tetradecene and pentadecane after 24 h. Acetophenone was identified as quantitatively accounting for the attraction of the egg parasitoid wasp (Trichogramma chilonis). Leaf jasmonic acid levels significantly increased after M. separata laid eggs, and primed the plant against emerging larvae. In addition, newly emerged M. separata larvae adopted a fast crawling behaviour and starvation tolerance compared with other noctuid larvae, which enhanced the survival of larvae on the withered leaves. The elucidation of this complex and surprising plant‐insect interaction provides the first explanation for a herbivore laying eggs on withered leaves to avoid natural enemies and live‐plant defence against emerging larvae. Summary statement: Mythimna separata prefers to lay eggs on withered leaves. The result showed that this behaviour avoids plant defence against eggs and the emerged larvae. Ovipositioninduced plant volatiles, especially acetophenone, strongly attracted the egg parasitic wasps. [ABSTRACT FROM AUTHOR]

Published

2024

7. Nitrogen and Growth Stage Influence Epicuticular Wax Composition on Rice Leaf and Sheath

Author

Shi, Jin-Hua, primary, Song, Cheng-Cheng, additional, Sun, Ze, additional, Foba, Caroline Ngichop, additional, Liao, An-Qi, additional, Zhao, Pei-Min, additional, Jin, Huanan, additional, and Wang, Man-Qun, additional

Published

2023

8. Microbial production of bi-functional molecules by diversification of the fatty acid pathway

Author

Garg, Shivani, Rizhsky, Ludmila, Jin, Huanan, Yu, Xiaochen, Jing, Fuyuan, Yandeau-Nelson, Marna D., and Nikolau, Basil J.

Published

2016

9. Fungal DNA virus infects a mycophagous insect and utilizes it as a transmission vector

Author

Liu, Si, Xie, Jiatao, Cheng, Jiasen, Li, Bo, Chen, Tao, Fu, Yanping, Li, Guoqing, Wang, Manqun, Jin, Huanan, Wan, Hu, and Jiang, Daohong

Published

2016

10. Rice defense responses are induced upon leaf rolling by an insect herbivore

Author

Shi, Jin-Hua, Sun, Ze, Hu, Xin-Jun, Jin, Huanan, Foba, Caroline Ngichop, Liu, Hao, Wang, Chao, Liu, Le, Li, Feng-Feng, and Wang, Man-Qun

Published

2019

11. Nitrogen and plant pathogens alter rice plant volatiles mediating host location behavior of Nilaparvata lugens and its parasitoid Anagrus nilaparvatae

Author

Liu, Hao, primary, Su, Xiao-Yun, additional, Sun, Ze, additional, Wang, Chao, additional, Shi, Jin-Hua, additional, Foba, Caroline Ngichop, additional, Jin, Huanan, additional, and Wang, Man-Qun, additional

Published

2022

12. Nitrogen and Growth Stage Influence Epicuticular Wax Composition on Rice Leaf and Sheath.

Author

Shi, Jin-Hua, Song, Cheng-Cheng, Sun, Ze, Foba, Caroline Ngichop, Liao, An-Qi, Zhao, Pei-Min, Jin, Huanan, and Wang, Man-Qun

Published

2023

13. Reverse genetic characterization of two paralogous acetoacetyl CoA thiolase genes in Arabidopsis reveals their importance in plant growth and development

Author

Jin, Huanan, Song, Zhihong, and Nikolau, Basil J.

Published

2012

14. Lipidomic and transcriptomic profiling of developing nodules reveals the essential roles of active glycolysis and fatty acid and membrane lipid biosynthesis in soybean nodulation

Author

Zhang, Gaoyang, primary, Ahmad, Muhammad Z., additional, Chen, Beibei, additional, Manan, Sehrish, additional, Zhang, Yuliang, additional, Jin, Huanan, additional, Wang, Xuemin, additional, and Zhao, Jian, additional

Published

2020

15. The control of the brown planthopper by the rice Bph14 gene is affected by nitrogen

Author

Sun, Ze, primary, Shi, Jin‐Hua, additional, Fan, Tao, additional, Wang, Chao, additional, Liu, Le, additional, Jin, Huanan, additional, Foba, Caroline Ngichop, additional, and Wang, Man‐Qun, additional

Published

2020

16. Global dissection of the BAHD acyltransferase gene family in soybean: Expression profiling, metabolic functions, and evolution

Author

Ahmad, Muhammad Zulfiqar, primary, Zeng, Xiangsheng, additional, Dong, Qiang, additional, Manan, Sehrish, additional, Jin, Huanan, additional, Li, Penghui, additional, Wang, Xiaobo, additional, Benedito, Vagner A., additional, and Zhao, Jian, additional

Published

2020

17. Comparative efficacy of 13 immunosuppressive agents for idiopathic membranous nephropathy in adults with nephrotic syndrome: a systematic review and network meta-analysis

Author

Zheng, Qiyan, primary, Yang, Huisheng, additional, Liu, Weijing, additional, Sun, Weiwei, additional, Zhao, Qing, additional, Zhang, Xiaoxiao, additional, Jin, Huanan, additional, and Sun, Luying, additional

Published

2019

18. Integrating metabolomics and transcriptomics data to discover a biocatalyst that can generate the amine precursors for alkamide biosynthesis

Author

Rizhsky, Ludmila, primary, Jin, Huanan, additional, Shepard, Michael R., additional, Scott, Harry W., additional, Teitgen, Alicen M., additional, Perera, M. Ann, additional, Mhaske, Vandana, additional, Jose, Adarsh, additional, Zheng, Xiaobin, additional, Crispin, Matt, additional, Wurtele, Eve S., additional, Jones, Dallas, additional, Hur, Manhoi, additional, Góngora‐Castillo, Elsa, additional, Buell, C. Robin, additional, Minto, Robert E., additional, and Nikolau, Basil J., additional

Published

2016

19. Temporal interactions of plant - insect - predator after infection of bacterial pathogen on rice plants

Author

Sun, Ze, primary, Liu, Zhuang, additional, Zhou, Wen, additional, Jin, Huanan, additional, Liu, Hao, additional, Zhou, Aiming, additional, Zhang, Aijun, additional, and Wang, Man-Qun, additional

Published

2016

20. Disequilibrium of Flavonol Synthase and Dihydroflavonol-4-Reductase Expression Associated Tightly to White vs. Red Color Flower Formation in Plants

Author

Luo, Ping, primary, Ning, Guogui, additional, Wang, Zhen, additional, Shen, Yuxiao, additional, Jin, Huanan, additional, Li, Penghui, additional, Huang, Shasha, additional, Zhao, Jian, additional, and Bao, Manzhu, additional

Published

2016

21. Evaluating PHA Productivity of Bioengineered Rhodosprillum rubrum

Author

Jin, Huanan, primary and Nikolau, Basil J., additional

Published

2014

22. Identification of KASIII enzymes with novel substrate specificities: demonstration of in vivo production of novel ω‐1 hydroxylated fatty acids using a novel KASIII (967.7)

Author

Garg, Shivani, primary, Jin, Huanan, additional, Stewart, Charles, additional, Yandeau‐Nelson, Marna, additional, Noel, Joseph, additional, and Nikolau, Basil, additional

Published

2014

23. Role of Genetic Redundancy in Polyhydroxyalkanoate (PHA) Polymerases in PHA Biosynthesis in Rhodospirillum rubrum

Author

Jin, Huanan, primary and Nikolau, Basil J., additional

Published

2012

24. Genetic, biochemical and physiological studies of acetyl-CoA metabolism via acyl-condensation

Author

Jin, Huanan, primary

25. Evaluating PHA Productivity of Bioengineered Rhodosprillum rubrum.

Author

Jin, Huanan and Nikolau, Basil J.

Subjects

*POLYHYDROXYALKANOATES synthesis, *BIOENGINEERING, *GRAM-negative bacteria, *CARBON, *BIOPOLYMERS, *GENE expression

Abstract

This study explored the potential of using Rhodosprillum rubrum as the biological vehicle to convert chemically simple carbon precursors to a value-added bio-based product, the biopolymer PHA. R. rubrum strains were bioengineered to overexpress individually or in various combinations, six PHA biosynthetic genes (phaC1, phaA, phaB, phaC2, phaC3, and phaJ), and the resulting nine over-expressing strains were evaluated to assess the effect on PHA content, and the effect on growth. These experiments were designed to genetically evaluate: 1) the role of each apparently redundant PHA polymerase in determining PHA productivity; 2) identify the key gene(s) within the pha biosynthetic operon that determines PHA productivity; and 3) the role of phaJ to support PHA productivity. The result of overexpressing each PHA polymerase-encoding gene indicates that phaC1 and phaC2 are significant contributors to PHA productivity, whereas phaC3 has little effect. Similarly, over-expressing individually or in combination the three PHA biosynthesis genes located in the pha operon indicates that phaB is the key determinant of PHA productivity. Finally, analogous experiments indicate that phaJ does not contribute significantly to PHA productivity. These bioengineering strains achieved PHA productivity of up to 30% of dry biomass, which is approximately 2.5-fold higher than the non-engineered control strain, indicating the feasibility of using this approach to produce value added bio-based products. [ABSTRACT FROM AUTHOR]

Published

2014

26. Evaluating PHA Productivity of Bioengineered Rhodosprillum rubrum.

Author

Jin, Huanan and Nikolau, Basil J.

Subjects

POLYHYDROXYALKANOATES synthesis, BIOENGINEERING, GRAM-negative bacteria, CARBON, BIOPOLYMERS, GENE expression

Abstract

This study explored the potential of using Rhodosprillum rubrum as the biological vehicle to convert chemically simple carbon precursors to a value-added bio-based product, the biopolymer PHA. R. rubrum strains were bioengineered to overexpress individually or in various combinations, six PHA biosynthetic genes (phaC1, phaA, phaB, phaC2, phaC3, and phaJ), and the resulting nine over-expressing strains were evaluated to assess the effect on PHA content, and the effect on growth. These experiments were designed to genetically evaluate: 1) the role of each apparently redundant PHA polymerase in determining PHA productivity; 2) identify the key gene(s) within the pha biosynthetic operon that determines PHA productivity; and 3) the role of phaJ to support PHA productivity. The result of overexpressing each PHA polymerase-encoding gene indicates that phaC1 and phaC2 are significant contributors to PHA productivity, whereas phaC3 has little effect. Similarly, over-expressing individually or in combination the three PHA biosynthesis genes located in the pha operon indicates that phaB is the key determinant of PHA productivity. Finally, analogous experiments indicate that phaJ does not contribute significantly to PHA productivity. These bioengineering strains achieved PHA productivity of up to 30% of dry biomass, which is approximately 2.5-fold higher than the non-engineered control strain, indicating the feasibility of using this approach to produce value added bio-based products. [ABSTRACT FROM AUTHOR]

Published

2014