發(fā)明公開:
[1]張凌云,王磊,曹一博,王愛斌. 一種與植物耐旱相關(guān)的轉(zhuǎn)錄因子VcMYB108及其編碼基因與應(yīng)用[P]. 北京市:CN114560919A,2022-05-31.
[2]張凌云,劉峻玲. 一種與植物抗逆性相關(guān)蛋白質(zhì)PwUSP1及其編碼基因與應(yīng)用[P]. 北京市:CN111153977A,2020-05-15.
[3]張凌云,崔瀟月,梁珂豪. 一種與植物抗逆性相關(guān)的轉(zhuǎn)錄因子PwNAC30及其編碼基因與應(yīng)用[P]. 北京市:CN111116721A,2020-05-08.
[4]張凌云,張鶴華,崔瀟月. PwNAC1基因及其編碼蛋白在植物抗逆中的應(yīng)用[P]. 北京市:CN110256543A,2019-09-20.
[5]張凌云,崔瀟月,張鶴華. PwRBP1和PwNAC1兩種蛋白互作協(xié)同提高植物耐逆性及其應(yīng)用[P]. 北京市:CN110218247A,2019-09-10.
[6]張凌云,崔瀟月,張鶴華. 一種與植物耐逆相關(guān)蛋白PwRBP1及其編碼基因與應(yīng)用[P]. 北京市:CN109971766A,2019-07-05.
[7]張凌云,郭雨瀟,趙陽陽. 藍(lán)莓組織袋內(nèi)快速生根培養(yǎng)方法[P]. 北京:CN108651276A,2018-10-16.
[8]張凌云,郭雨瀟,趙陽陽,張杰. 用于藍(lán)莓組織培養(yǎng)的初代、繼代培養(yǎng)基[P]. 北京:CN108651277A,2018-10-16.
[9]張凌云,張鶴華. 一種與植物耐逆性相關(guān)的轉(zhuǎn)錄因子PwNAC2及其編碼基因與應(yīng)用[P]. 北京:CN107827964A,2018-03-23.
[10]張凌云,劉中帥. 調(diào)控藍(lán)莓果實(shí)中花青素含量的蛋白及其編碼基因與應(yīng)用[P]. 北京:CN106967161A,2017-07-21.
[11]張凌云,羅朝兵,孫帆,張鶴華. 擬南芥AtNAC018蛋白及其編碼基因在植物耐逆及抗衰老中的應(yīng)用[P]. 北京:CN106946985A,2017-07-14.
[12]張凌云,張通,劉亞靜,張盾. 青杄轉(zhuǎn)錄因子PwNF-YB3及其編碼基因與應(yīng)用[P]. 北京:CN105367639A,2016-03-02.
[13]張凌云,李長江,孫帆,羅朝兵. 一種基于植物cDNA文庫的基因全長cDNA的批量分離方法[P]. 北京:CN103805597A,2014-05-21.
[14]張凌云,于彥麗,李彥澤,鄭成超. 青杄轉(zhuǎn)錄因子PwHAP5及其編碼基因與應(yīng)用[P]. 北京:CN101824080A,2010-09-08.
[15]張凌云,于彥麗,李彥澤,鄭成超. 一種與花粉萌發(fā)和/或花粉管生長相關(guān)的蛋白及其編碼基因與應(yīng)用[P]. 北京:CN101503468,2009-08-12.
[16]張凌云,于彥麗,鄭成超,李彥澤. 一種提取裸子植物組織中RNA的方法[P]. 北京:CN101492485,2009-07-29.
[17]張凌云,聶配顯. 一種向木本植物中引入熒光示蹤劑的方法及其專用裝置[P]. 北京:CN101435817,2009-05-20.
發(fā)明授權(quán):
[1]張凌云,張鶴華,崔瀟月. PwNAC1基因及其編碼蛋白在植物抗逆中的應(yīng)用[P]. 北京市:CN110256543B,2022-09-20.
[2]張凌云,崔瀟月,張鶴華. PwRBP1和PwNAC1兩種蛋白互作協(xié)同提高植物耐逆性及其應(yīng)用[P]. 北京市:CN110218247B,2022-04-05.
[3]張凌云,崔瀟月,張鶴華. 一種與植物耐逆相關(guān)蛋白PwRBP1及其編碼基因與應(yīng)用[P]. 北京市:CN109971766B,2021-05-25.
[4]張凌云,張鶴華. 一種與植物耐逆性相關(guān)的轉(zhuǎn)錄因子PwNAC2及其編碼基因與應(yīng)用[P]. 北京市:CN107827964B,2021-04-16.
[5]張凌云,劉中帥. 調(diào)控藍(lán)莓果實(shí)中花青素含量的蛋白及其編碼基因與應(yīng)用[P]. 北京市:CN106967161B,2020-10-27.
[6]張凌云,羅朝兵,孫帆,張鶴華. 擬南芥AtNAC018蛋白及其編碼基因在植物耐逆及抗衰老中的應(yīng)用[P]. 北京市:CN106946985B,2020-05-05.
[7]張凌云,張通,劉亞靜,張盾. 青杄轉(zhuǎn)錄因子PwNF-YB3及其編碼基因與應(yīng)用[P]. 北京市:CN105367639B,2019-01-08.
[8]張凌云,聶配顯. 一種向木本植物中引入熒光示蹤劑的方法及其專用裝置[P]. 北京市:CN101435817B,2012-09-19.
[9]張凌云,于彥麗,李彥澤,鄭成超. 青杄轉(zhuǎn)錄因子PwHAP5及其編碼基因與應(yīng)用[P]. 北京市:CN101824080B,2012-05-30.
[10]張凌云,于彥麗,鄭成超,李彥澤. 一種提取裸子植物組織中RNA的方法[P]. 北京市:CN101492485B,2012-02-08.
[11]張凌云,于彥麗,李彥澤,鄭成超. 一種與花粉萌發(fā)和/或花粉管生長相關(guān)的蛋白及其編碼基因與應(yīng)用[P]. 北京市:CN101503468B,2012-02-08.
出版專著
[1] 吳國良主編 張凌云參編 2008,中國扁桃研究及高效栽培利用新技術(shù),中國農(nóng)業(yè)出版社.
[2] 沈國舫主編,2018,中國主要樹種造林技術(shù)(第二版),中國林業(yè)出版社. 張凌云參與編寫青杄、白杄樹種.
發(fā)表論文70余篇,其中發(fā)表SCI論文近30篇,以第一作者或通訊作者發(fā)表SCI論文17篇。發(fā)表中文核心刊物論文40余篇。
發(fā)表英文論文:
[1] Ye, Honglian; Folz, Jacob; Li, Chao; Zhang, Ying; Hou, Zhixia; Zhang, Lingyun; Su, Shuchai*.Response of metabolic and lipid synthesis gene expression changes in Camellia oleifera to mulched ecological mat under drought conditions.Science of the Total Environment, 2021, 795: 148856.
[2] Wang, Aibin; Liang, Kehao; Yang, Shiwen; Cao, Yibo; Wang, Lei; Zhang, Ming; Zhou, Jing; Zhang, Lingyun*.Genome-wide analysis of MYB transcription factors of Vaccinium corymbosum and their positive responses to drought stress.BMC Genomics, 2021, 22(1): 565.
[3] Yu, Mingxin; Liu, Junling; Du, Bingshuai; Zhang, Mengjuan; Wang, Aibin; Zhang, Lingyun*.NAC Transcription Factor PwNAC11 Activates ERD1 by Interaction with ABF3 and DREB2A to Enhance Drought Tolerance in Transgenic Arabidopsis.International Journal of Molecular Sciences, 2021, 22(13): 6952.
[4] Yu, Mingxin; Liu, Junling; Du, Bingshuai; Zhang, Mengjuan; Wang, Aibin; Zhang, Lingyun*.NAC Transcription Factor PwNAC11 Activates ERD1 by Interaction with ABF3 and DREB2A to Enhance Drought Tolerance in Transgenic Arabidopsis.International Journal of Molecular Sciences, 2021, 22(13): 6952.
[5] Zhang, Ming; Wang, Aibin; Qin, Mou; Qin, Xuejing; Yang, Shiwen; Su, Shuchai; Sun, Yongjiang*; Zhang, Lingyun*.Direct and Indirect Somatic Embryogenesis Induction in Camellia oleifera Abel.Frontiers in Plant Science, 2021, 12: 644389.
[6] Zhang, Ming; Wang, Aibin; Qin, Mou; Qin, Xuejing; Yang, Shiwen; Su, Shuchai; Sun, Yongjiang*; Zhang, Lingyun*.Direct and Indirect Somatic Embryogenesis Induction in Camellia oleifera Abel.Frontiers in Plant Science, 2021, 12: 644389.
[7] Liang, Ke-hao; Wang, Ai-bin; Yuan, Yi-hang*; Miao, Ya-hui; Zhang, Ling-yun.Picea wilsonii NAC Transcription Factor PwNAC30 Negatively Regulates Abiotic Stress Tolerance in Transgenic Arabidopsis.Plant Molecular Biology Reporter, 2020, 38(4): 554-571.
[8] Zhou, Yanni; Cui, Xiaoyue; Hu, Anni; Miao, Yahui; Zhang, Lingyun*.Characterization and functional analysis of pollen-specific PwSWEET1 in Picea wilsonii.Journal of Forestry Research, 2020, 31(5): 1913-1922.
[9] Yang, Shiwen; Liang, Kehao; Wang, Aibin; Zhang, Ming; Qiu, Jiangming; Zhang, Lingyun*.Physiological Characterization and Transcriptome Analysis ofCamellia oleiferaAbel. during Leaf Senescence.Forests, 2020, 11(8): 812.
[10] Guo, Yuxiao; Zhang, Hehua; Yuan, Yihang; Cui, Xiaoyue; Zhang, Lingyun*.Identification and characterization of NAC genes in response to abiotic stress conditions in Picea wilsonii using transcriptome sequencing.Biotechnology & Biotechnological Equipment, 2020, 34(1): 93-103.
[11] Liang, Kehao; Wang, Aibin; Sun, Yongjiang; Yu, Mingxin; Zhang, Lingyun*.Identification and Expression of NAC Transcription Factors of Vaccinium corymbosum L. in Response to Drought Stress.Forests, 2019, 10(12): 1088.
[12] Guo, Yu Xiao; Zhao, Yang Yang; Zhang, Ming; Zhang, Ling Yun*.Development of a novel in vitro rooting culture system for the micropropagation of highbush blueberry (Vaccinium corymbosum) seedlings.Plant Cell, Tissue and Organ Culture, 2019, 139(3): 615-620.
[13] Wen, Yue; Zhang, Yunqi; Su, Shuchai*; Yang, Shaoyan; Ma, Lvyi; Zhang, Lingyun; Wang, Xiangnan.Effects of Tree Shape on the Microclimate and Fruit Quality Parameters of Camellia oleifera Abel.Forests, 2019, 10(7): 563.
[14] Zhao, Mengran; Li, Jian; Zhu, Ling; Chang, Pan; Li, Lingli*; Zhang, Lingyun.Identification and Characterization of MYB-bHLH-WD40 Regulatory Complex Members Controlling Anthocyanidin Biosynthesis in Blueberry Fruits Development.Genes, 2019, 10(7): 496.
[15] Wang Xiaoyi; You Hanli; Yuan Yihang; Zhang Hehua; Zhang Lingyun*.The cellular pathway and enzymatic activity for phloem-unloading transition in developing Camellia oleifera Abel. Fruit.Acta Physiologiae Plantarum, 2018, 40(2): 23.
[16] Zhang HH, Cui XY, Guo YX, Luo CB, Zhang LY*. 2018. Picea wilsonii transcription factor NAC2 enhanced plant tolerance to abiotic stress and participated in RFCP1-regulated flowering time. Plant Molecular Biology, online.
[17] Zhou YN, Cui XY, Hu AN, Miao YH, Zhang LY*. 2018. The characterization and functional analysis of pollen-specific PwSWEET1 in Picea wilsonni. Journal of Forestry Research, online.
[18] Li, Lingli; Zhang, Hehua; Liu, Zhongshuai; Cui, Xiaoyue; Zhang, Tong; Li, Yanfang; Zhang, Lingyun*.Comparative transcriptome sequencing and de novo analysis of Vaccinium corymbosum during fruit and color development.BMC Plant Biology, 2016, 16: 223.
[19] Zhang, Tong; Li, Yanfang; Zhou, Yanni; Zhang, Lingyun*.Cloning and expression analysis of a homologous expansin gene EXP2 in Picea wilsonii.Journal of Forestry Research, 2016, 27(2): 247-255.
[20] Zhang, Tong; Zhang, Dun; Liu, Yajing; Luo, Chaobing; Zhou, Yanni; Zhang, Lingyun*.Overexpression of a NF-YB3 transcription factor from Picea wilsonii confers tolerance to salinity and drought stress in transformed Arabidopsis thaliana.Plant Physiology and Biochemistry, 2015, 94: 153-164.
[21] Li Lingli; Yu Yanli; Wei Jing; Huang Guixue; Zhang Dun; Liu Yong; ZhangLingyun(張凌云,通訊作者)*.Homologous HAP5 subunit from Picea wilsonii improved tolerance to salt and decreased sensitivity to ABA in transformed Arabidopsis.Planta, 2013, 238(2): 345-356.
[22] Wang Rongkai; Li Lingli; Cao Zhonghui; Zhao Qiang; Li Ming; Zhang Lingyun; Hao Yujin.Molecular cloning and functional characterization of a novel apple MdCIPK6L gene reveals its involvement in multiple abiotic stress tolerance in transgenic plants.Plant Molecular Biology, 2012, 79(1-2): 123-135.
[23] Li Y, Li LL, Fan RC, Peng CC, Sun HL, Zhu SY, Wang XF, Zhang LY* and Zhang DP. Arabidopsis sucrose transporter SUT4 interacts with cytochrome b5-2 to regulate seed germination in response to sucrose and Glucose. Molecular Plant, 2012, 5(5):1029-1041
[24] Yu YL, Li LL, Huang GX, .Meng Z. Zhang D, Wei J, Yan K, Zheng CC, Zhang LY*. The PwHAP5, a CCAAT-binding transcription factor, interacts with PwFKBP12 and plays a role in pollen tube growth orientation in Picea wilsonii.. Journal of Experimental Botany, 2011, 14: 4805–4817
[25] Hu Liping; Sun Huihui; Li Ruifu; Zhang Lingyun; Wang Shaohui; Sui Xiaolei; Zhang Zhenxian。Phloem unloading follows an extensive apoplasmic pathway in cucumber (Cucumis sativus L.) fruit from anthesis to marketable maturing stage。Plant, Cell and Environment, 2011, 34(11): 1835-1848.
[26] Fan Junling; Wei Xuezhi; Wan Lichuan; Zhang Lingyun; Zhao Xueqin; Liu Weizhong; Hao Huaiqing; Zhang Haiyan.Disarrangement of actin filaments and Ca2+ gradient by CdCl2 alters cell wall construction in Arabidopsis thaliana root hairs by inhibiting vesicular trafficking.Journal of Plant Physiology, 2011, 168(11): 1157-1167.
[27] Nie PX, Wang XY, Hu LP, Zhang HY, Zhang JX,Zhang ZX, Zhang LY *. The predominance of apoplasmic phloem unloading pathway is interrupted by a symplasmic pathway during Chinese jujube fruit development. Plant and Cell Physiology, 2010, 51(6): 1007–1018
[28] Fan Renchun; Peng Changcao; Xu Yanhong; Wang Xiaofang; Li Yan; Shang Yi; Du Shuyuan; Zhao Rui; Zhang Xiaoyan; Zhang Lingyun; Zhang Dapeng.Apple Sucrose Transporter SUT1 and Sorbitol Transporter SOT6 Interact with Cytochrome b5 to Regulate Their Affinity for Substrate Sugars.Plant Physiology, 2009, 150: 1880-1901.
[29] Yu YL, Li YZ, Li LL,Lin JX,Zheng CC,Zhang LY*. Overexpression of PwTUA1, a pollen-specific tubulin gene, increases pollen tube elongation by altering the distribution of α-tubulin and promoting vesicles transport. Journal of Experimental Botany,2009, 60(9):2737–2749 IF:5.3
[30] Fang, Kefeng; Wang, Younian; Yu, Tongquan; Zhang Lingyun; Baluska, Frantisek; Samaj, Jozef; Lin Jinxing*.Isolation of de-exined pollen and cytotogical studies of the pollen intines of Pinus bungeana Zucc. Ex Endl. and Picea wilsonii Mast.Flora, 2008, 203(4): 332-340.
[31] 張凌云.Isolation of de-exined pollen and cytological studies of the pollen intines of Pinus bungeana Zucc. Ex Endl. and Picea wilsonii Mast.Flora, 2008, 203: 332-340.
[32] Zhang Lingyun; Hao Huaiqing; Wang Qinli; Fang Kefeng; Hou Zhixia; Lin Jinxing.The localization of Rac GTPase in Picea willsonii pollen tubes implies roles in tube growth and the movement of the tube nucleus and sperm cells.Plant Science, 2007, 172(6): 1210-1217.
[33] 張凌云.Awns play a dominant role in carbohydrate production during the grain-filling stages in wheat (Triticum aestivum L.).Physiologia Plantarum, 2006, 127: 701-709.
[34] Fang KF, Zhang LY,Lin JX. A rapid,efficient method for the mass production of pollen protoplasts from Pinus bungeana and Picea wilsonii Mast. Flora, 2005, 201:74-85.
[35] Zhang LY,Peng CC, Zou KQ, et al. A monosaccharide transporter is localized to sieve plate and plasmodesmal channel in developing apple fruit. Chinese Science Bulletin 2005, 50(4): 344-347.
[36] Zhang LY, Fang KF, Lin JX. Heterotrimeric G-protein α-subunit is localized in the plasma membrane of Pinus bungeana pollen tubes. Plant Science 2005,169: 1066–1073..
[37] 張凌云.Abscisic acid is involved in the water stress-induced betaine accumulation in pear leaves.Plant and Cell Physiology, 2004, 45: 742-750.
[38] 張凌云.Jasmonic acid is involved in the water-stress-induced betaine accumulation in pear leaves.Plant, Cell and Environment, 2004, 27: 497-507.
[39] Wu GL#, Zhang XY#, Zhang LY#, Pan QH, Shen YY, Zhang DP. Phloem unloading in developing walnut fruit is symplasmic in the seed pericarp and apoplasmic in the fleshy pericarp. Plant and Cell Physiology, 2004, 45 ((10): 1461-1470.
[40] Zhang LY, Peng YB, Pelleschi ST, Fan Y, Lu YF, Lu YM, Gao XP, Shen YY, Delrot S, Zhang DP. Evidence for apoplasmic phloem unloading in developing apple fruit. Plant Physiology, 2004, 135: 574-586.
[41] 張凌云.Disorganization of actin filaments and calcium gradient by cadmium alters cell wall construction in Arabidopsis thaliana root hairs by inhibiting vesicle trafficking.New Phytologist.
發(fā)表中文期刊論文:
[1]覃雪晶,王雨涵,曹一博,張凌云.青杄PwHAP5基因原核表達(dá)及多克隆抗體制備[J].生物技術(shù)通報,2022,38(08):142-149.
[2]張凌云,李清舟,段睿玨,薛裔男.基于無線充電及自動導(dǎo)航避障的生態(tài)景區(qū)監(jiān)測無人車系統(tǒng)[J].電子元器件與信息技術(shù),2021,5(12):79-80. .
[3]苗雅慧,鞠丹,梁珂豪,王愛斌,劉峻玲,張凌云*.青杄轉(zhuǎn)錄因子基因PwNF-YB8的克隆與功能分析[J].林業(yè)科學(xué),2021,57(05):77-92.
[4]高璐鑫,王琪,陳雨晴,孫永江,張凌云.春季亞低溫脅迫對油茶‘華碩’葉片光合生理特性的影響[J].西南林業(yè)大學(xué)學(xué)報(自然科學(xué)),2022,42(01):100-107.
[5]孫永江,覃雪晶,覃謀,張凌云.廣西壯族自治區(qū)百色市油茶產(chǎn)業(yè)現(xiàn)狀調(diào)查與分析[J].農(nóng)業(yè)與技術(shù),2020,40(21):128-130.
[6]劉峻玲,梁珂豪,苗雅慧,胡安妮,孫永江,張凌云.青杄PwUSP1基因特征及對干旱和鹽脅迫的響應(yīng)[J].北京林業(yè)大學(xué)學(xué)報,2020,42(10):62-70.
[7]王愛斌,宋慧芳,張流洋,張明,楊詩雯,張凌云.生物肥和菌肥對藍(lán)莓苗生長及土壤養(yǎng)分的影響[J].南京林業(yè)大學(xué)學(xué)報(自然科學(xué)版),2020,44(06):63-70.
[8]苗雅慧,游韓莉,郜銀濤,張凌云.青杄轉(zhuǎn)錄因子PwHAP5及其同源蛋白AtHAP5下游靶基因的鑒定[J].東北林業(yè)大學(xué)學(xué)報,2020,48(06):6-12+16.
[9]王愛斌,張流洋,宋慧芳,張明,苗雅慧,郭雨瀟,張凌云.磷肥施用方式對藍(lán)莓苗木生長及養(yǎng)分吸收的影響[J].北京林業(yè)大學(xué)學(xué)報,2020,42(02):114-123.
[10]趙陽陽,郭雨瀟,孫永江,張凌云.文冠果果實(shí)韌皮部及其周圍薄壁細(xì)胞的超微結(jié)構(gòu)觀察及功能分析[J].西北植物學(xué)報,2019,39(09):1581-1588.
[11]李興芬,苗雅慧,孫永江,張孟娟,張凌云.青杄PwPEBP基因及其啟動子序列的克隆與表達(dá)分析[J].北京林業(yè)大學(xué)學(xué)報,2019,41(04):8-20.
[12]趙陽陽,郭雨瀟,張凌云.文冠果果實(shí)轉(zhuǎn)錄組測序及分析[J].生物技術(shù)通報,2019,35(06):24-31.
[13]梁珂豪,孫永江,袁義杭,張凌云.青杄轉(zhuǎn)錄因子PwNAC30及其啟動子序列的克隆與表達(dá)分析[J].西北植物學(xué)報,2019,39(01):12-23.
[14]張鶴華,劉嘉欣,羅朝兵,張凌云*.青杄轉(zhuǎn)錄因子PwERF8及其啟動子序列的克隆與分析[J].林業(yè)科學(xué),2018,54(03):48-60.
[15]張凌云.針對亞太留學(xué)生的“林業(yè)技術(shù)前沿”課程教學(xué)改革探討——以北京林業(yè)大學(xué)為例[J].中國林業(yè)教育,2018,36(01):76-78.
[16]胡安妮,張凌云.青杄PwVQ1基因的克隆與表達(dá)[J].東北林業(yè)大學(xué)學(xué)報,2018,46(02):6-11.
[17]袁義杭,張鶴華,游韓莉,張凌云.青杄PwNAC42基因的克隆及表達(dá)模式分析[J].生物技術(shù)通報,2018,34(03):113-120.
[18]游韓莉,袁義杭,李長江,張凌云*.青杄MYB轉(zhuǎn)錄因子基因PwMYB20的克隆及表達(dá)分析[J].林業(yè)科學(xué),2017,53(05):23-32.
[19]張鶴華,李艷芳,聶佩顯,王紅陽,張凌云*.藍(lán)莓果實(shí)同化物韌皮部卸載路徑與糖代謝酶活性[J].林業(yè)科學(xué),2017,53(03):40-48.
[20]李艷芳,聶佩顯,張鶴華,王力,王紅陽,張凌云.藍(lán)莓果實(shí)花青苷積累與內(nèi)源激素含量動態(tài)變化[J].北京林業(yè)大學(xué)學(xué)報,2017,39(02):64-71.
[21]劉中帥,袁義杭,張通,張凌云* .藍(lán)莓轉(zhuǎn)錄因子VcMYB21在果實(shí)著色及幼苗UV處理中的響應(yīng)[J].植物生理學(xué)報,2017,53(01):115-125.
[22]鞠丹,胡安妮,張杰,張凌云.青杄PwRbcS基因克隆及對逆境響應(yīng)分析[J].生物技術(shù)通報,2016,32(10):154-162.
[23]郜銀濤,周燕妮,羅朝兵,張凌云,陳坤明.青杄類伸展蛋白基因PwELP1的克隆及表達(dá)分析[J].西北農(nóng)林科技大學(xué)學(xué)報(自然科學(xué)版),2016,44(10):83-90+99. .
[24]李艷芳,張凌云.高叢藍(lán)莓類黃酮3′-羥化酶基因F3′H的克隆及表達(dá)特性分析[J].生命科學(xué)研究,2015,19(04):303-309.
[25]周燕妮,李艷芳,張通,張凌云.青杄PwUSP2基因的克隆和表達(dá)分析[J].植物生理學(xué)報,2015,51(08):1307-1314.
[26]羅朝兵,鞠丹,劉中帥,張凌云.青杄CYP1基因的克隆與表達(dá)[J].東北林業(yè)大學(xué)學(xué)報,2015,43(10):14-20.
[27]張通,李巧玲,張凌云*.PwEXP1在青杄種子萌發(fā)及逆境響應(yīng)中的表達(dá)特征[J].林業(yè)科學(xué),2014,50(12):56-62.
[28]孫帆,李長江,崔曉燕,張凌云.青杄分子伴侶PwTCP-1基因的克隆及表達(dá)分析[J].北京林業(yè)大學(xué)學(xué)報,2015,37(01):29-36. .
[29]張凌云*燕妮,李長江,張凌云.青杄PwWrbA基因克隆及表達(dá)分析[J].南京林業(yè)大學(xué)學(xué)報(自然科學(xué)版),2014,38(04):34-38.
[31]孫帆,羅朝兵,周燕妮,張凌云.青杄生長素抑制蛋白基因PwARP-1的克隆及表達(dá)分析[J].生物技術(shù)通報,2014,No.261(04):64-70.
[32]崔曉燕,李長江,孫帆,張世宏,張凌云*.青桿PwUSP1基因的克隆及表達(dá)模式分析[J].植物生理學(xué)報,2014,50(04):407-414.
[33]李長江,崔曉燕,孫帆,張凌云*.青杄干旱誘導(dǎo)基因PwWDS1的cDNA分離與表達(dá)分析[J].林業(yè)科學(xué),2014,50(04):129-136.
[34]曹一博,李長江,孫帆,張凌云*.抗裂與易裂棗內(nèi)源激素含量和細(xì)胞壁代謝相關(guān)酶活性比較[J].園藝學(xué)報,2014,41(01):139-148.
[35]李長江,孫帆,張通,張凌云*.青杄PwPSAF基因的克隆與組織表達(dá)分析[J].林業(yè)科學(xué),2013,49(10):40-47.
[36]張凌云,王小藝,曹一博.油茶果實(shí)糖含量及代謝相關(guān)酶活性與油脂積累關(guān)系分析[J].北京林業(yè)大學(xué)學(xué)報,2013,35(04):55-60.
[37]曹一博,孫帆,劉亞靜,張凌云*.棗果實(shí)組織結(jié)構(gòu)及果皮中礦質(zhì)元素含量對裂果的影響[J].果樹學(xué)報,2013,30(04):621-626+725.
[38]曹一博,張凌云*,李艷芳.抗裂性不同的棗果實(shí)發(fā)育過程中Ca2+分布動態(tài)變化[J].電子顯微學(xué)報,2013,32(01):66-72.
[39]曹一博,劉亞靜,張凌云.青杄中sPPa1的cDNA序列克隆及其生物信息學(xué)分析[J].植物科學(xué)學(xué)報,2012,30(04):394-401.
[40]劉亞靜,李長江,孫帆,張凌云.青杄PsbO基因cDNA序列克隆及生物信息學(xué)分析[J].生命科學(xué)研究,2012,16(03):201-206.
[41]張盾,劉亞靜,李長江,曹一博,張凌云.青杄均一化cDNA文庫構(gòu)建及EST序列分析[J].生物技術(shù)通報,2012,No.239(06):71-76.
[42]李長江,曹一博,張凌云.青杄PSAK的克隆及生物信息學(xué)分析[J].生物技術(shù),2012,22(03):4-9.
[43]黃桂雪,王雨涵,張凌云.青杄FKBP12基因原核表達(dá)和多克隆抗體的制備[J].生物技術(shù),2012,22(03):34-38.
[44]王小藝,曹一博,張凌云,陳永忠.油茶生長發(fā)育過程中脂肪酸成分的測定分析[J].中國農(nóng)學(xué)通報,2012,28(13):76-80.
[45]衛(wèi)靜,李長江,劉亞靜,黃桂雪,張凌云.擬南芥轉(zhuǎn)錄因子NF-YC的原核表達(dá)及多克隆抗體制備[J].生物技術(shù)通報,2012,No.236(03):57-62.
[46]劉亞靜,張盾,張凌云.植物HAP3轉(zhuǎn)錄因子研究進(jìn)展[J].生物技術(shù)通報,2011,No.232(11):6-11+25.
[47]張凌云.落實(shí)大學(xué)生科學(xué)研究與創(chuàng)業(yè)行動計劃 加強(qiáng)創(chuàng)新型人才培養(yǎng)[J].中國林業(yè)教育,2011,29(03):11-14.
[48]王釗奇,李婧,張凌云.論京郊觀光果園如何滿足市場需求[J].中國園藝文摘,2010,26(09):49-50.
[49]李玲俐,張凌云*.青杄花粉管生長過程中囊泡運(yùn)輸與Ca2+分布的細(xì)胞學(xué)研究[J].電子顯微學(xué)報,2010,29(02):163-166.
[50]聶佩顯,關(guān)秋竹,張振賢,張繼祥,張凌云*.冬棗果實(shí)韌皮部及其周圍薄壁細(xì)胞的超微結(jié)構(gòu)觀察和功能分析[J].電子顯微學(xué)報,2009,28(04):389-395.
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[52]吳國良; 張凌云; 潘秋紅; 劉群龍。美國山核桃及其品種性狀研究進(jìn)展,果樹科學(xué), 2003, (05): 404-409.
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