成果及论文 - 黄进课题组@成都理工大学

论文（近５年第一及通讯作者）

2024

[29] MINGYU Li, LONGYING WU, YANG SHI, LIJUAN WU, FARHAN AFZAL, YANRU JIA, YANYAN HUANG, BINHUA HU, JI CHEN, JIN HUANG*. Bioinformatics and Functional Analysis of OsASMT1 Gene in Response toAbiotic Stress [J]. Bochemical Genetics，2024, https://doi.org/10.1007/s10528-024-10774-w. https://link.springer.com/epdf/10.1007/s10528-024-10774-w?sharing_token=WuTtLz3HSyKTwwDJ8GWKWve4RwlQNchNByi7wbcMAY48luniqHuTnTnAkbcJNuWdcGcBjw2SiKXJyOFIxSzJCQSAOo73Me2qGGHyeZxCRlsOagI5IP7T_2Ps4w3-8BIkvxMVxIrOk3PKTJjBU10LVRJUaOTo0l0CM8BPEikvbsk=

[28] 江珊, 吴龙英, 赵宝生, 黄佳惠, 蒋宇喆, 焦元, 黄进. 植物耐受高温胁迫的分子机制[J]. 中国农学通报，2024, 40(9): 132-138.

Jiang Shan, Wu Longying, Zhao Baosheng, Huang Jiahui, Jiang Yuzhe, Jiao Yuan, Huang Jin. Molecular Mechanisms of Plant Tolerance to High-Temperature Stress[J]. Chinese Agricultural Science Bulletin, 2024, 40(9): 132-138. https://www.casb.org.cn/CN/10.11924/j.issn.1000-6850.casb2023-0544

[27] Tong J, Wu L, Li B, Jiang N, Huang J, Wu D, Zhou L, Yang Q, Jiao Y, Chen J, Zhao K, Pei X. Image-based vegetation analysis of desertified area by using a combination of ImageJ and Photoshop software. Environ Monit Assess. 2024 Feb 26;196(3):306. https://link.springer.com/article/10.1007/s10661-024-12479-4

[26] 黄佳惠, 张瑶, 肖凯, 等. 中国农田土壤质量评价指标及其发展趋势[J]. 资源环境与工程, 2024,38(1):26-33.

JIAHUI HUANG, YAO ZHANG, KAI XIAO, et al. Evaluation index and development trend of farland soil quality in China[J]. Resources Environment & Engineering, 2024,38(1):26-33. https://kns.cnki.net/kcms2/article/abstract?v=f2Ae6OvU-JLrQW2Aao4GPeLEEwyXDCbPnwT2kJLQfZxOXumEilDu9mhfI847UdidseglyT4dGBLWlJNuEoMh7XaGoX4NPBig8TxTRrxzp6wHh_6lifH417BnybGx05OBoOXUngeQhsQ=&uniplatform=NZKPT&language=CHS

[25] 贾雁茹, 靳雨璠, 焦元, 等. 植物青素Phytocyanin蛋白家族研究进展综述[J]. 植物科学学报, 2024 （已接收）.

YANRU JIA, YUFAN JIN, YUAN JIAO, et al. A review on the research progress of Phytocyanin (PC) protein family[J]. Plant Science Journal, 2024.

[24] 吴佳乐, 黄进, 姜南, 等. 植被盖度分析技术发展现状与趋势[J]. 草学, 2024（已接收）.

JIALE WU, JIN HUANG, NAN JIANG, et al. Advances and prospects in vegetation coverage analysis techniques[J]. Journal of Grassland and Forage Science, 2024.

[23] LONGYING W, RUOLIN W, MINGYU L, et al. Functional analysis of a rice 12-oxo-phytodienoic acid reductase gene (OsOPR1) involved in Cd stress tolerance[J]. Mol Biol Rep, 2024,51(1): 198. https://link.springer.com/article/10.1007/s11033-023-09159-w

2023

[22] BIN L, DU Z, JIANG N, et al. Genome-Wide identification and expression protein of the FORMIN gene family implies their potential functions in abiotic stress tolerance in rice (Oryza sativa L.）[J]. Plant Molecular Biology Reporter, 2023. https://doi.org/10.1007/s11105-023-01387-5

[21] 杜志烨, 李明玉, 陈稷, 等. 植物胁迫相关蛋白功能研究进展[J]. 分子植物育种, 2023.

ZHIYE DU, MINGYU LI, JI CHEN, et al. Research Advance in Function of Stress Associated Proteins in Plant[J]. Molecular Plant Breeding, 2023. https://www.chinbullbotany.com/CN/10.11983/CBB23029

[20] 李家豪, 蒋文君, 石杨, 等. 重金属相关异戊二烯化植物蛋白的研究进展[J]. 分子植物育种, 2023: 1-10.

JIAHAO LI, WENJUN JIANG, YANG SHI, et al. Research progress on heavy metal-related isopreneylated plant proteins[J]. Molecular Plant Breeding, 2023: 1-10. https://kns.cnki.net/kcms/detail/46.1068.S.20231204.1326.015.html

[19] NAN J, YANG S, MINGYU L, et al. Expression of OsHARBI1-1 enhances the tolerance of Arabidopsis thaliana to cadmium[J]. BMC Plant Biology, 2023,23(1): 556. https://doi.org/10.1186/s12870-023-04540-0

[18] YANG S, NAN J, MENGTING W, et al. OsHIPP17 is involved in regulating the tolerance of rice to copper stress[J]. Frontiers in Plant Science, 2023,14: 1183445. https://doi.org/10.3389/fpls.2023.1183445

[17] YANG S, WENJUN J, MINGYU L, et al. Metallochaperone protein OsHIPP17 regulates the absorption and translocation of cadmium in rice (Oryza sativa L.).[J]. International journal of biological macromolecules, 2023,245: 125607. https://doi.org/10.1016/j.ijbiomac.2023.125607

[16] WENJUN J, MENGTING W, ZHIYE D, et al. Bioinformatic and functional analysis of OsDHN2 under cadmium stress.[J]. Functional & integrative genomics, 2023,23(2): 170. https://doi.org/10.1007/s10142-023-01101-4

[15] 李明玉, 石杨, 李斌, 等. 水稻基因OsGLP1-2的克隆、表达及功能分析[J]. 西南农业学报, 2023,36(02): 217-223.

MINGYU LI, YANG SHI, BIN LI, et al. Cloning, expression and functional analysis of rice gene OsGLP1-2[J]. 2023,36(02): 217-223. http://www.xnnyxb.com/#/digest?ArticleID=3790

[14] 姜南, 石杨, 赵志慧, 等. 镉胁迫下水稻OsPT1的表达及功能分析[J]. 生物技术通报, 2023,39(01): 166-174.

NAN JIANG, YANG SHI, ZHIHUI ZHAO, et al. Expression and functional analysis of OsPT1 gene in rice under cadmium stress[J]. Biotechnology Bulletin, 2023,39(01): 166-174. https://biotech.aiijournal.com/CN/10.13560/j.cnki.biotech.bull.1985.2022-0489

[13] HUANG J, YANG S, BIN L, et al. The effects of combined application of chemical fertilizer, functional bacteria and plant hormones on vegetation restoration of desertification land in Zoige Plateau[J]. Plant and soil, 2023,491(1-2): 355-368. https://doi.org/10.1007/s11104-023-06116-1

2022

[12] 黄进, 张旭, 赵志慧, 等. 植物修复重金属污染相关研究的文献计量分析[J]. 环境保护科学, 2022,48(04): 21-26.

JIN HUANG, XU ZHANG, ZHIHUI ZHAO, et al. Bibliometric analysis of research on phytoremediation of heavy metal pollution[J]. Environmental Protection Science, 2022,48(04): 21-26. http://eekw.rcees.ac.cn/article/doi/10.16803/j.cnki.issn.1004-6216.2022.04.004

[11] 李斌, 李明玉, 杜志烨, 等. 环境变化对水稻osfh1突变体成蛋白家族表达的影响[J]. 广西植物, 2022,42(11): 1811-1821.

BIN LI, MINGYU LI, ZHIYE DU, et al. Environment change effects on the expression level of Formins in rice osfh1 mutant[J]. Guihaia, 2022,42(11): 1811-1821. http://www.guihaia-journal.com/gxzw/ch/reader/view_abstract.aspx?file_no=221102&flag=1

[10] 石杨, 汪梦婷, 靳雨璠, 等. 水稻OsMBF1c基因的克隆及表达分析[J]. 广西植物, 2022,42(11): 1822-1829.

YANG SHI, MENGTING WANG, YUFAN JIN, et al. Cloning and expression analysis of OsMBF1c gene in rice[J]. Guihaia, 2022,42(11): 1822-1829. http://gxzw.ijournals.cn/gxzwen/ch/reader/view_abstract.aspx?file_no=221103&flag=1

[9] 邓杰文, 石杨, 李斌, 等. 微生物在沙化土壤修复中的应用研究进展[J]. 应用与环境生物学报, 2022,28(05): 1367-1374.

WENJIE DENG, YANG SHI, BIN LI, et al. Research progress on the application of microorganisms in sandy land remediation[J]. Chinese Journal of Applied & Environmental Biology, 2022,28(05): 1367-1374. http://qikan.cqvip.com/Qikan/Article/Detail?id=7108620492

[8] 廖恒毅, 王若霖, 黄进. ROPs:植物细胞内多种信号通路的分子开关[J]. 中国生物化学与分子生物学报, 2022,38(03): 271-283.

HENGYI LIAO, RUOLIN WANG, JIN HUANG. ROPs: molecular switches of multiple signal pathways in plant cells[J]. Chinese Journal of Biochemistry and Molecular Biology, 2022,38(03): 271-283. https://kns.cnki.net/kcms2/article/abstract?v=phUvsea1i7b4q-_iSGx3nxB_PfDD-vwC8qLVQ_kWLsmG5G2RmVoKEIKq4nKVcOaPd3RftQ_dr1X1Xku10swpAxmNGU58hpS2jSsZyAuwg46wqKlgLlNMCdQDnTb9hs73Z7N1fwNABOf08K0xOVxycA==&uniplatform=NZKPT&language=CHS

[7] 石杨, 李家豪, 于月, 等. 重金属污染土壤的植物修复技术与其他技术联用的进展与前景[J]. 环境污染与防治, 2022,44(02): 244-250.

YANG SHI, JIAHAO LI, YUE YU, et al. Progress and prospect of plant remediation technology joint with other technologies for heavy metal contaminated soil[J]. Environmental Pollution and Control, 2022,44(02): 244-250. http://www.zjepc.com/#/digest?ArticleID=7709

[6] 杜志烨, 李斌, 石杨, 等. 玉米成蛋白家族的鉴定与生物信息学分析[J]. 基因组学与应用生物学, 2022,41(07): 1505-1520.

ZHIYE DU, BIN LI, YANG SHI, et al. Genomics and Applied Biology[J]. Identification and bioinformatics analysis of formin family in Zea mays, 2022,41(07): 1505-1520. https://kns.cnki.net/kcms2/article/abstract?v=phUvsea1i7Zvzl59J55WZAQxXGqp6cafL4x2b57rpEkmMST3zUZppCpEcm-OyygKFTQ7VJ5AiQo9CC6Gd8A35K1liYNZIpZKQRIwPmnqDxSInbnrw2Dzkp3id4SOTLLllBRDKeKSOnG8Xkoq6XZfwA==&uniplatform=NZKPT&language=CHS

2021

[5] 李斌, 何山, 杜志烨, 等. 成蛋白(Formin):植物细胞形态与发育的重要调控者[J]. 生物工程学报, 2021,37(09): 3005-3019.

BIN LI, SHAN HE, ZHIYE DU, et al. Formins: the key regulators of plant cell morphology and development[J]. Chinese Journal of Biotechnology, 2021,37(09): 3005-3019. https://kns.cnki.net/kcms2/article/abstract?v=phUvsea1i7ZciY9BN3F5uLR4MfyVgb8LPaIY4Nn7xXpB3h3T-wi7DvrDYQC0GyleACaz1-LtkCq6hCOzdW9LmsraQaLM1-pHx5ic9o03GdLOD6vWY2yt5r35dFLFvf0ZH9K57SFuj_DiWhTqo5FAiA==&uniplatform=NZKPT&language=CHS

[4] 杨富玲, 石杨, 李斌, 等. 植物根系分泌物在污染及沙化土壤修复中的应用现状与前景[J]. 应用生态学报, 2021,32(07): 2623-2632.

FULING YANG, YANG SHI, BIN LI, et al. Status and prospects of the application of root exudates in the restoration of polluted or desertated soil[J]. Chinese Journal of Applied Ecology, 2021,32(07): 2623-2632. https://kns.cnki.net/kcms2/article/abstract?v=phUvsea1i7Z4mUyPsCHba0-K4lPXBOEbx41bdH5X92ef-KsCNfpJDXM2sdzzezNyQHXiCjkALl0EwofWS9RNPUJ7kPGsRAP3hm-8EeEQ8X5X1B-U_2W3oNC70USI__QuNjgtw8rokQA3duiv7G7tWA==&uniplatform=NZKPT&language=CHS

[3] JI C, LI W, XIAOWAN J, et al. Oryza sativa ObgC1 Acts as a Key Regulator of DNA Replication and Ribosome Biogenesis in Chloroplast Nucleoids[J]. Rice, 2021,14(1). https://doi.org/10.1186/s12284-021-00498-5

2020

[2] 李斌, 黄进, 王丽, 等. 环境胁迫及相关植物激素在水稻根毛发育过程中的作用[J]. 中国水稻科学, 2020,34(04): 287-299.

BIN LI, JIN HUANG, LI WANG, et al. A review on how plant hormones and environment factors are involved in rice root hair development[J]. Chinese Journal of Rice Science, 2020,34(04): 287-299. https://kns.cnki.net/kcms2/article/abstract?v=phUvsea1i7bdpT_ZT5CbfzfIsFFyepU0zo-dftyLUDDOFvN5d-LcMGHrKgShqjrd11WtoctMAfrkxZwUE_w596fPOAm57f8Z8VPBRhBNqN-PzG-mwM5re-ywcoR5ZaXgSGrh_KaotpzcsSZTKR7mYQ==&uniplatform=NZKPT&language=CHS

[1] JI C, LI W, HUAN L, et al. Overexpression of DoUGP enhanced biomass and stress tolerance by promoting polysaccharide accumulation in dendrobium officinale[J]. Frontiers in Plant Science, 2020,11. https://doi.org/10.3389/fpls.2020.533767

专利：

2023

[3] 黄进；石杨；蒋文君；姜南；李明玉；周映旭；陈稷, 宋词. 水稻OsHIPP17基因在培育抗重金属水稻品种中的应用. 国家发明专利 (审查中，专利号202310791920.9).

Huang Jin; Shi Yang; Jiang Wenjun; Jiang Nan; Li Mingyu; Zhou Yingxu; Chen Ji, Song Ci. Application of Rice OsHIPP17 Gene in the Development of Heavy Metal Tolerant Rice Varieties. National Invention Patent (Under Review, Application No. 202310791920.9).

2022

[2] 吴迪; 熊敏先; 裴向军; 李斌; 刘金渠; 雷泞菲; 童晋; 宋词; 黄焗斌; 黄进．一种用于水化土壤植物生长的组合物及其应用, 2022-05-06, 中国, 202110152122.2

Wu Di; Xiong Minxian; Pei Xiangjun; Li Bin; Liu Jinqu; Lei Ningfei; Tong Jin; Song Ci; Huang Joupin; Huang Jin. A Composition for Promoting Plant Growth in Hydric Soils and Its Application, 2022-05-06, China, Application No. 202110152122.2.

2019

[1] 黄进; 李斌; 李瑾; 贾悦; 许楠; 任柏宇; 覃坦; 唐伟. 一种挡土墙定时控制式绿化装置. 实用新型专利. 2019-7-4, 中国, ZL201921033487.8

Huang Jin; Li Bin; Li Jin; Jia Yue; Xu Nan; Ren Baiyu; Qin Tan; Tang Wei. A Timing Control Greening Device for Retaining Walls. Utility Model Patent, 2019-07-04, China, Patent No. ZL201921033487.8.