高志红 - 南京农业大学

个人简介

现为国家种质果梅杨梅资源圃负责人，江苏省产业体系岗位科学家，中国园艺学会李杏分会副理事长，南京市杨梅协会理事长。主持和参与国家自然基金、农业部保种项目和科技部资源子平台项目，农业部公益性行业专项子项目、江苏省自然基金以及江苏省自主创新等项目20多项。第一作者或通讯作者发表论文100多篇，其中SCI论文60多篇，主编或副主编教材和专著5本；第一完成人制定农业行业标准1项，江苏省地方标准5项；获得6项国家发明专利；获得梅植物新品种权6个，参与葡萄、苹果、枇杷等新品种审定4个。获得2017年度江苏省科技推广二等奖1项；苏州市科技进步二等奖1项；江苏省科技进步三等奖1项。培养研究生30多名，其中留学生5名，指导2篇江苏省优秀硕士毕业论文。获得江苏省优秀科技特派员称号，入选江苏省青蓝工程优秀学术带头人和江苏省六大人才高峰高层次人才，获南京农业大学优秀教学质量奖。曾在澳大利亚、日本作为访问学者进行进修学习，并且到欧洲、美洲等多个国家访问交流或参加学术会议，参加非洲的科技援助项目，与国外多所大学保持密切的合作关系，参与一带一路国际合作项目，协助建成了中国肯尼亚农作物联合分子生物学实验室。任课名称：《园艺学总论》（全英文）、《果树栽培学》、《果品文化与鉴赏》

近期论文

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2012年以来发表的部分文章： 1. Xiao Huang, Tao Chen, Pengyu Zhou, Xuexi Huang, Dan Liu, Weixin Jin, Hongtu Zhang, Jianguo Zhou, Zhongjun Wang and Zhihong Gao*. Prediction and Optimization of Fruit Quality of Peach Based on Artificial Neural Network. Journal of Food Composition and Analysis, 2022, doi:https://doi.org/10.1016/j.jfca.2022.104604 2. Hailong Sun，Xiao Huang，Tao Chen，Pengyu Zhou，Xuexi Huang，Weixin Jin, Dan Liu, | Hongtu Zhang, Jianguo Zhou, Zhongjun Wang, Faisal Hayat, Zhihong Gao*. Fruit quality prediction based on soil mineral element content in peach orchard. Food Science and Nutrition, 2022; 00:1–12 3. Xiao Huang†, Zhaojun Ni†, Ting Shi1†, Ryutaro Tao, Qin Yang, Changguo Luo, Yongping Li, Hantao Li, Haidong Gao, Xiangyang Zhou, Lei Xu and Zhihong Gao*. Novel insights into the dissemination route of Japanese apricot (Prunus mume Sieb. et Zucc.) based on genomics. Plant Journal, 2022, doi: 10.1111/tpj.15731 4. Faisal Hayat#, Zixun Sun#, Zhaojun Ni #, Shahid Iqbal, Wuyi Xu, Zhihong Gao*, Yushan Qiao, Muhammad Aammar Tufail, Mohammad Shah Jahan, Ummara Khan, Chunyan Wan, Xianbin Gu. Exogenous Melatonin Improves Cold Tolerance of Strawberry (Fragaria × ananassa Duch.) through Modulation of DREB/CBF-COR Pathway and Antioxidant Defense System. Horticulturae 2022, 8, 19 5. Faisal Hayat†, Chengdong Ma†, Shahid Iqbal †, Xiao Huang, Ouma Kenneth Omondi, Zhaojun Ni, Ting Shi, Rezwan Tariq, Ummara Khan and Zhihong Gao*. Rootstock-Mediated Transcriptional Changes Associated with Cold Tolerance in Prunus mume Leaves. Horticulturae 2021, 7, 572 6. Xiao Huang, Wei Tan, Feng Li, Ruyu Liao, Zhongren Guo, Ting Shi*, Zhihong Gao*. The chloroplast genome of Prunus zhengheensis: Genome comparative and phylogenetic relationships analysis. Gene, 2021, 793:145751 7. Shahid Iqbal, Zhenpeng Pan, Faisal Hayat, Yang Bai, Daouda Coulibaly, Sajid Ali, Xiaopeng Ni, Ting Shi, Zhihong Gao*. Comprehensive transcriptome profiling to identify genes involved in pistil abortion of Japanese apricot. Physiol Mol Biol Plants, 2021, https://doi.org/10.1007/s12298-021-01019-w 8. Hantao Li，Jie Gao，Ting Shi，Shahid Iqbal，Zhaojun Ni，Zhihong Gao*.Genome‑wide identification and expression analysis of the frigida domain gene family in Prunus mume (Prunus mume Sieb. et Zucc.) Horticulture, Environment, and Biotechnology，2021，https://doi.org/10.1007/s13580-021-00357-8 9. Faisal Hayat, Shahid Iqbal, Daouda Coulibaly, Muhammad Khuram Razzaq, Muhammad Azher Nawaz, Weibing Jiang, Ting Shi, and Zhihong Gao*. An insight into dwarfing mechanism: contribution of scion-rootstock interactions toward fruit crop improvement. Fruit Research，2021 1: 3 https://doi.org/10.48130/FruRes-2021-0003 10. Xiao Huang，Huakun Wang，Shenchun Qu，Wenjie Luo，Zhihong Gao*. Using artificial neural network in predicting the key fruit quality of loquat. Food Science and Nutrition, 2021: 9:1780–1791. DOI: 10.1002/fsn3.2166 11. Xiao Huang, Huakun Wang, Wenjie Luo, Song Xue, Faisal Hayat, Zhihong Gao*. Prediction of loquat soluble solids and titratable acid content using fruit mineral elements by artificial neural network and multiple linear regression. Scientia Horticulturae, 2021(278): 109873 12. Jie Gao, Xiaopeng Ni, Hantao Li, Faisal Hayat1, Ting Shi, Zhihong Gao*. miR169 and PmRGL2 synergistically regulate the NF-Y complex to activate dormancy release in Japanese apricot (Prunus mume Sieb. et Zucc.). Plant Molecular Biology,2020,https://doi.org/10.1007/s11103-020-01070-3 13. Ting Shi, Shahid Iqbal , Aliya Ayaz, Yang Bai, Zhenpeng Pan, Xiaopeng Ni, Faisal Hayat, Muhammad Saqib Bilal, Muhammad Khuram Razzaq and Zhihong Gao*. Analyzing Di_erentially Expressed Genes and Pathways Associated with Pistil Abortion in Japanese Apricot via RNA-Seq，Genes，2020，11, 1079 14. Shahid Iqbal， Zhenpeng Pan， XinxinWu，Ting Shi，Xiaopeng Ni，Yang Bai， Jie Gao，Muhammad Khalil-ur-Rehman，Zhihong Gao*. Genome-wide analysis of PmTCP4 transcription factor binding sites by ChIP-Seq during pistil abortion in Japanese apricot. The Plant Genome,2020;e20052.https://doi.org/10.1002/tpg2.20052 15. Shahid Iqbal, Xiaopeng Ni, Muhammad Saqib Bilal, Ting Shi, Muhammad Khalil-ur-Rehman, Pan Zhenpeng, Gao Jie, Muhammad Usman, Zhihong Gao⁎ Identiﬁcation and expression proﬁling of sugar transporter genes during sugar accumulation at diﬀerent stages of fruit development in apricot. Gene, 2020, 742,144584(IF:2.623) 16. Xinxin Wu, Yong Zhou, Dan Yao, Shahid Iqbal, Zhihong Gao*, Zhen Zhang. DNA methylation of LDOX gene contributes to the floral colour variegation in peach. Journal of Plant Physiology 2020, 246-247: 153116.（IF：2.825） 17. Ting Shi, Wen Jieluo, Han Taoli, Xuexi Huang, Zhaojun Ni, Haidong Gao, Shahid Iqbal, Zhihong.Gao* Association between blooming time and climatic adaptation in Prunus mume. Ecol Evol. 2020，10:292-306. 18. Song Xue, Ting Shi, Wenjie Luo, Xiaopeng Ni, Shahid Iqbal, Zhaojun Ni, Xiao Huang, Dan Yao,Zhijun Shen and Zhihong Gao*. Comparative analysis of the complete chloroplast genome among Prunus mume, P. armeniaca, and P. salicina. Horticulture Research ( 2019) 6:89 19. Xinxin Wu, Ting Shi, Shahid Iqbal, Yong Zhang, Lin Liu and Zhihong Gao*. Genome-wide discovery and characterization of flower development related long non-coding RNAs in Prunus mume. BMC Plant Biology, 2019, 19:64 https://doi.org/10.1186/s12870-019-1672-7 20. TingShi, JieSuna, XinxinWu, JinyangWeng, PengkaiWang, HongliQie, YinghongHuang, HuakunWangb, ZhihongGao∗. Transcriptome analysis of Chinese bayberry (MyricarubraSieb.etZucc.) fruit treated with heat and 1-MCP. Plant Physiology and Biochemistry, 2018, 133, 40-49 21. Shaolei Guo, Shahid Iqbal, Ruijuan Ma, Juan Song, Mingliang Yu*, Zhihong Gao*. High-density genetic map construction and quantitative trait loci analysis of the stony hard phenotype in peach based on restriction-site associated DNA sequencing. BMC Genomics, 2018, 19:612 22. Xiaoming Lou, Huakun Wang, Xiaopeng Ni, Zhihong Gao*, Shahid Iqbala Integrating proteomic and transcriptomic analyses of loquat (Eriobotrya japonica Lindl.) in response to cold stress. Gene, 2018(677:57-65 23. Xiaopeng Ni, Song Xue, Wanxu W ang, Zhaojun Ni, Muhammad Khalil-ur-Rehman and Zhihong Gao*. Candidate genes associated with red colour formation revealed by comparative genomic variant analysis of red- and green-skinned fruits of Japanese apricot (Prunus mume) PeerJ 2018, 6: e4625; DOI 10.7717/peerj.4625 24. Lin Lv, Ximei Huo, Luhua Wen, Zhihong Gao*, Khalil-ur-Rehman M. Isolation and Role of PmRGL2 in GA-mediated Floral Bud Dormancy Release in Japanese Apricot (Prunus mume Siebold et Zucc.). Front. Plant Sci. 2018, 9:27. doi: 10.3389/fpls.2018.00027 25. Wanxu Wang, Ting Shi, Xiaopeng Ni, Yanshuai Xu, Shenchun Qu, Zhihong Gao *. The role of miR319a and its target gene TCP4 in the regulation of pistil development in Prunus mume. Genome, 2018, 61: 43–48 dx.doi.org/10.1139/gen-2017-0118 26. Xianbin Gu, Zhihong Gao*, Yichao Yan, Xiuyun Wang, Yushan Qiao,Yahua Chen* RdreB1BI enhances drought tolerance by activating AQP-related genes in transgenic strawberry. Plant Physiology and Biochemistry, 2017,119:33-42 27. Xinxin Wu, Qinghua Gong, Xiaopeng Wu, Zhihong Gao*. UFGT: The Key Enzyme Associated with the Petals Variegation in Japanese Apricot. Front. Plant Sci. 8:108.doi: 10.3389/fpls.2017.0010 28. Huang Zhigang, Shi Ting, Zheng Binglian, Yumul Rae Eden, Liu Xigang, You Chenjiang, Gao Zhihong, Xiao Langtao, Chen Xuemei. APETALA2 antagonizes the transcriptional activity of AGAMOUS in regulating floral stem cells in Arabidopsis thaliana [J]. New Phytol, 2016: 29. Zhuang W B, Cai B H, Gao ZH*, Zhang Z. Determination of chilling and heat requirements of 69 Japanese apricot cultivars. European Journal of Agronomy, 2016,74: 68-74 30. Zhuang W, Gao Z H*, Wen L H, Huo X M, Cai B H, Zhang Z. Metabolic changes upon flower bud break in Japanese apricot are enhanced by exogenous GA4. Citation: Horticulture Research, 2015, 2, 15046, doi:10.1038/hortres. 31. Song J, Gao Z H*, Huo X M, Sun H L, Xu Y S, Shi T, Ni Z J. Genome-wide identification of the auxin response factor (ARF) gene family and expression analysis of its role associated with pistil development in Japanese apricot (Prunus mume Sieb.et Zucc). Acta Physiol Plant, 2015, 37:145 32. Song S, Shao J, Gao ZH*, Sun HL. Evaluation of the antifungal activity of the acetone extract of Japanese apricot fruit. Journal of Chemical and Pharmaceutical Research, 2014, 6(11):156-160 33. Wang PP, Gao ZH*, Ni ZJ, Zhang Z, Cai BH. Self-compatibility in ‘Zaohong’ Japanese apricot is associated with the loss of function of pollen S genes. Mol Biol Rep (2013) 40:6485–6493 34. Zhuang WB, Gao ZH*, Wang LJ, Zhong WJ, Ni ZJ, Zhang Z. Comparative proteomic and transcriptomic approaches to address the active role of GA4 in Japanese apricot flower bud dormancy release. Journal of Experimental Botany, 2013 doi:10.1093/jxb/ert284 35. Zhong WJ, Gao ZH*, Zhuang WB, Shi T, Zhang Z, Ni ZJ. Genome-wide expression profiles of seasonal bud dormancy at four critical stages in Japanese apricot. Plant Mol Biol, 2013: 83:247-264 36. Gao ZH*, Wang PP, Zhuang WB, Zhang Z. Sequences Analysis of New S-RNase and SFB alleles in Japanese Apricot (Prunus mume). Plant Molecular Biology Reporter, 2013, 31: 751-762 37. Wang PP, Gao ZH*, Ni ZJ, Zhuang WB, Zhang Z. Isolation and identification of new pollen-specific SFB genes in Japanese apricot (Prunus mume). Genet. Mol. Res. 2013, 12 (3): 3286-3295 38. Zhuang WB, Shi T, Gao ZH*, Zhang Z, Zhang Z. Differential expression of proteins associated with seasonal bud dormancy at four critical stages in Japanese apricot. Plant Biology, 120(1), 2012 pp 123-130 39. Gao ZH*, Shi T, Luo XY, Zhang Z, Zhuang WB, Wang LJ. High-Throughput Sequencing of small RNAs and Analysis of Differentially Expressed microRNAs Associated with Pistil Development in Japanese apricot, BMC Genomics, (13), 2012, p 371 40. Shi T, Gao ZH*, Wang LJ, Zhang Z, Zhuang WB, Sun HL, Zhong WJ. Identification of differentially-expressed genes associated with pistil abortion in Japanese apricot by genome-wide transcriptional analysis. Plos ONE, 2012, 2012, 7(10): 47810 (SCI, IF=4.09(2011)) 41. Shi T, Zhuang WB, Zhang Z, Sun HL, Wang LJ, Gao ZH*. Comparative proteomic analysis of pistil abortion in Japanese apricot (Prunus mume Sieb. et Zucc). Journal of Plant Physiology, 169(13), 2012 pp 1301-1310 42. Gao ZH*, Luo XY, Shi T, Cai B, Zhang Z, Cheng ZM, Zhuang WB. Identification and Validation of Potential Conserved microRNAs and Their Targets in Peach (Prunus persica), Molecules and Cells, 2012, 34(3):239-49 43. Gao ZH*, Zhuang WB, Wang LJ, Shao J, Luo XY, Cai BH, Zhang Z*. 2012. Evaluation of Chilling and Heat Requirements in Japanese Apricot with Three Models HORTSCIENCE, 2012, 47(12):1–6. 44. Wang PP, Shi T, Zhuang WB, Zhang Z, Gao ZH*. Determination of S-RNase genotypes and isolation of four novel S-RNase genes in Japanese apricot (Prunus mume Sieb. et Zucc.) native to China. Journal of Horticultural Science & Biotechnology, 2012 87 (3):266-270