基因组育种技术研究室

研究室介绍

基因组育种技术研究室现有职工11人（高级职称5人、中级职称6人），博士后2人，研究生12人。研究方向涵盖：基于多组学的作物重要基因资源挖掘与利用，组学与人工智能结合的育种方法与工具开发，种质资源研究与新种质、品种创制。研究室以桃、生菜、大豆等为主要研究对象，近年来在高质量基因组组装注释、多组学数据库建立、种质资源表型鉴定与遗传关系图谱构建、重要育种性状遗传机制解析、转基因和单细胞测序实验体系建立、组学育种工具开发及优异品系选育等方面取得重要进展。近年主持参加国家重点研发计划、政府间国际科技创新合作、国家自然科学基金、北京市自然科学基金等22项；在国际知名期刊Nature Communications、Genome Biology、Nature Plants、Trends in Plant Science、Nucleic Acids Research、Molecular biology and evolution、Plant communications等发表论文60余篇。研究室在成果转化、科企合作、科技助农等方面已取得重要进展。

人员构成

研究室主任：于洋；

研究室成员：谢华、申飞、徐摇光、陈昌龙、田宇、赵永欣、荆彦付、匡正、齐新捧、苏艳艳。

成果展示

（一）近五年主持项目

[1]	“十四五”国家重点研发计划“农业生物重要性状形成与环境适应性基础研究”专项：果茶花优异性状形成的分子基础（2022YFF1003100）-课题：果实品质性状形成与调控的分子基础-任务：桃果实发育和品质等优异性状形成的分子基础（2022.12-2027.11）
[2]	“十四五”国家重点研发计划“政府间国际科技创新合作”项目：中西园艺作物绿色生产水土利用和生防关键技术研究示范（2022YFE0199500）-任务：化学农药生物替代与绿色防控技术集成（2022.06-2025.05）
[3]	“十四五”国家重点研发计划“农业生物种质资源挖掘与创新利用”专项：黄淮夏大豆优质高产耐密新种质创制与应用（SQ2023YFD1200066）-课题：黄淮夏大豆种质创新技术体系集成与优化（2023.12-2028.11）
[4]	国家自然科学基金青年基金（主持）：“基于机器学习和三维结构的植物miRNA特征研究”（2023.01-2025.12）
[5]	北京市高层次留学人才回国资助（2024.07-2025.07）
[6]	北京市农林科学院农业科技示范推广项目-科技书记挂职专项经费：兴隆庄村科技能力提升（2022.01-2023.12）
[7]	国家自然科学基金面上项目：“植物microRNA注释新标准及microRNA靶基因对的选择机制研究” （2021.01-2024.12）
[8]	“十三五”国家重点研发项目：落叶果树高效育种技术与品种创制（2019YFD10008）-课题：桃高效育种技术与品种创制-任务：桃高效育种技术与品种创制-北京2（2019.08-2022.12）
[9]	“十三五”国家重点研发项目：果树果实品质形成与调控（2018YFD10002）-课题：果实有机酸积累的机理与调控课题-任务：桃果实有机酸调控相关基因的挖掘与利用（2018.07-2022.12）
[10]	国家自然基金面上项目：桃PpOFP2基因调控果实形状的分子基础研究（32272689, 2023.01-2026.12）
[11]	中国博士后科学基金第76批面上资助：GmBN5调控大豆分枝数的分子机制研究（2024M760253，2024.11-2026.08）
[12]	第18批中国博士后科学基金特别资助：全基因组关联分析解析大豆株型的时序性调控遗传基础（403526，2025.04 -2026.08）
[13]	北京市科技新星交叉合作课题：畜禽养殖粪污无害化处理及在园艺作物绿色生产中应用研究（20230484461，2023.10-2025.10）
[14]	北京市农林科学院农业科技示范服务项目：桃园优质、绿色、省力化技术集成与示范（2025SFFW-ZJGZZ-004, 2025.01-2025.12）
[15]	北京市农林科学院创新能力建设专项：桃PpERDL16调控果实果糖积累的分子机理研究（ KJCX20240303，2024.01-2026.12）
[16]	北京市农林科学院创新能力建设专项：桃果实有机酸品质性状形成的分子调控网络研究（KJCX20230401，2023.01-2025.12）
[17]	北京市农林科学院创新能力建设专项：桃糖酸相关互作位点聚合选择与风味改良（KJCX20210432，2021.01-2023.12）
[18]	北京市农林科学院青年科研基金项目：桃甜度遗传改良及其调控基因的挖掘 (QNJJ202120，2021.01-2023.12）
[19]	北京市农林科学院青年科研基金项目：Zur对植物软腐病菌Pectobacterium致病力的双重调控机制（QNJJ202416, 2024.01-2026.12）
[20]	北京市农林科学院青年科研基金项目：蔬菜软腐病胡萝卜果胶杆菌致病相关基因Zur的功能解析（QNJJ202011，2020.01-2022.12）
[21]	国家自然科学基金青年基金：“MdWRKY7 调控苹果轮纹病抗性的功能与机制解析”(2022.01-2024.12)
[22]	北京市自然科学基金委青年科学基金项目：“MdNDRI 调控苹果轮纹病抗性的功能解析及育种标记开发”(2021.01-2022.12)

（二）获得植物新品种证书：

1、植物新品种权证书：‘玉玲珑1号’，品种权号：CNA20180035.5。

（三）近五年发表论文、授权专利、获奖情况

论文：

[1]	Yaoguang Xu#, Yang Yu#, Xinpeng Qi#, Qi Zhang, Jiantao Guan, Zhengquan Zhang, Jianhua Wei*, Hua Xie*. The PeachSNP170K array facilitates insights into a large-scale population relatedness and genetic impacts on citrate content and flowering time. Communications Biology, 2025, 8:854.
[2]	Xin Xu#, Yang Yu#, Bingjun Jiang#, Dong Cao#, Lixin Zhang, Hongchang Jia, Xuegang Sun, Li Chen, Shan Yuan, Fulu Chen, Zefu Lu, Yanhong Liu, Mahmoud Naser, Tingting Wu, Cunxiang Wu, Qingzhu Zhang, Shi Sun* and Tianfu Han*. Molecular dissection of hemizygote-dependent dominance of super-early flowering in soybean. The Crop Journal, 2025, DOI:10.1016/j.cj.2025.02.007.
[3]	Hao He#, Yongxin Zhao#, Dengyu Zheng#, Huiyun Kuang, Fei Shen, Kang He, Haiyan Zhang, Changjiang Zhao, Lu Jiang, Da Xiao, Su Wang, Zhenying Wang, Shuai Zhan, Jianhua Wei, Xiaozeng Yang*, Zhongyi Wu*, Chun Zhang*. Chromosome-level genome assembly of Monolepta hieroglyphica, two-spotted leaf beetle (Coleoptera: Chrysomelidae). Scientific data, 2025, 12(1):1
[4]	Yunpeng Cao#, Xiaofeng Feng#, Baopeng Ding#, Heqiang Huo, Muhammad Abdullah, Jiayi Hong, Lan Jiang, Han Wang, Risheng Li, Yongping Cai, Xiaoxu Li, Zhichao Xia, Rajeev Varshney, Haifei Hu, Mengfei Lin*, Fei Shen*. Gap-free genome assemblies of two Pyrus bretschneideri cultivars and GWAS analyses identify a CCCH zinc finger protein as a key regulator of stone cell formation in pear fruit. Plant communications, 2025, 6(3):101238
[5]	Changlong Chen, Pierre Buscaill, Nattapong Sanguankiattichai, Jie Huang, Farnusch Kaschani, Markus Kaiser, Renier A L van der Hoorn*. Extracellular plant subtilases dampen cold-shock peptide elicitor levels. Nature Plants, 2024, 10(11): 1749-1760.
[6]	Changlong Chen, Renier A L van der Hoorn*, Pierre Buscaill. Releasing hidden MAMPs from precursor proteins in plants. Trends in Plant Science, 2024, 29(4): 428-436.
[7]	Mengjia Zhu#, Siyuan Ren#, Changlong Chen, Yu Tian, Zhijian Long, Zhiqiang Lin, Hua Xie*, Ying Cao*. The combined application of Bacillus velezensis BCP6 and Jinggangmycin (JGM) to control soft rot caused by Pectobacterium aroidearum on Amorphophallus konjac. Plant Protection Science, 2024, 60 (1):41-52.
[8]	Changwei Bi#, Fei Shen#, Fuchuan Han#, Yanshu Qu, Jing Hou, Kewang Xu, Li-An Xu, Wenchuang He, Zhiqiang Wu*, Tongming Yin*. PMAT: an efficient plant mitogenome assembly toolkit using low-coverage HiFi sequencing data. Horticulture research, 2024, 11(3):uhae023
[9]	Ning Sun#, Fuchuan Han#, Suyan Wang, Fei Shen, Wei Liu, Weishu Fan, Changwei Bi*. Comprehensive analysis of the Lycopodium japonicum mitogenome reveals abundant tRNA genes and cis-spliced introns in Lycopodiaceae species. Frontiers in plant science, 2024, 15:1446015
[10]	Xuan Wang#, Wenli Shang#, Mingyuan Li#, Fei Cao, Dongsheng Wang, Meng Wang, Yi Lu, Haie Zhang, Fei Shen*, Jing Liu*. Identification and characterization of CmPP2C31 playing a positive role in the abiotic stress resistance of Chinese chestnut via an integrated strategy. Frontiers in plant science, 2024, 15:1491269
[11]	Changlong Chen#, Shu Che#, Zhou Dong, Jiayi Sui, Yu Tian, Yanyan Su, Meng Zhang, Wangwang Sun, Jiaqin Fan*, Jianbo Xie*, Hua Xie*. A genome-wide association study reveals that epistasis underlies the pathogenicity of Pectobacterium. Microbiology Spectrum, 2023, 11:5.
[12]	Yanyan Su#, Xiaoying Li#, Lei Li, Anna Lukianova, Anna Tokmakova, Changlong Chen, Lu Fu, Yu Tian, Yanxia Shi, Jianbo Xie, Konstantin A.Miroshnikov, Jungang Yang*, Hua Xie*. Occurrence, Characteristics, and qPCR-Based Identification of Pectobacterium versatile causing Soft Rot of Chinese cabbage in China. Plant Disease, 2023, 107:2751-2762.
[13]	Changlong Chen, Shuang Cui, Jiantao Guan, Yanyan Su, Xucong Liang, Yu Tian, Hua Xie*. Investigation of the role of a Zinc uptake regulator (Zur) in the virulence of Pectobacterium odoriferum. International Journal of Molecular Sciences, 2023, 24: 9991.
[14]	Zhonglong Guo#, Bo Li#, Jianjun Du#, Fei Shen#, Yongxin Zhao#, Yang Deng, Zheng Kuang, Yihan Tao, Miaomiao Wan, Xianju Lu, Dong Wang, Ying Wang, Yingyan Han, Jianhua Wei, Lei Li, Xinyu Guo, Chunjiang Zhao, Xiaozeng Yang*. LettuceGDB: The community database for lettuce genetics and omics. Plant communications, 2023, 4(1):100425
[15]	Fei Shen#, Hao He#, Xin Huang, Yang Deng, Xiaozeng Yang*. Insights into the convergent evolution of fructan biosynthesis in angiosperms from the highly characteristic chicory genome. The New phytologist, 2023, 238(3):1245-1262
[16]	Qiuyue Ma#, Yuxiao Wang#, Shushun Li#, Jing Wen, Lu Zhu, Kunyuan Yan, Yiming Du, Shuxian Li, Liping Yan, Zhijun Xie, Yunzhou Lyu, Fei Shen*, Qianzhong Li*. Ribosome footprint profiling enables elucidating the systemic regulation of fatty acid accumulation in Acer truncatum. BMC biology, 2023, 21(1):68
[17]	Fei Shen#, Yajuan Qin#, Rui Wang#, Xin Huang, Ying Wang, Tiangang Gao, Junna He, Yue Zhou, Yuannian Jiao, Jianhua Wei, Lei Li*, Xiaozeng Yang*. Comparative genomics reveals a unique nitrogen-carbon balance system in Asteraceae. Nature communications, 2023, 14(1):4334
[18]	Fei Shen#, Shixiao Xu#, Qi Shen, Changwei Bi, Martin Lysak*. The allotetraploid horseradish genome provides insights into subgenome diversification and formation of critical traits. Nature communications, 2023, 14(1):4102
[19]	Fei Shen#, Chenyang Hu#, Xin Huang, Hao He, Deng Yang, Jirong Zhao*, Xiaozeng Yang*. Advances in alternative splicing identification: deep learning and pantranscriptome. Frontiers in plant science, 2023, 14:1232466
[20]	Jiantao Guan#, Jintao Zhang#, Dan Gong#, Zhengquan Zhang, Yang Yu, Gaoling Luo, Prakit Somta, Zheng Hu, Suhua Wang, Xingxing Yuan, Yaowen Zhang, Yanlan Wang, Yanhua Chen, Kularb Laosatit, Xin Chen, Honglin Chen, Aihua Sha, Xuzhen Cheng, Hua Xie*, Lixia Wang*. Genomic analyses of rice bean landraces reveal adaptation and yield related loci to accelerate breeding. Nature Communications, 2022, 13:5707.
[21]	Fei Shen#, Chenyang Hu#, Xin Huang#, Ruigang Wu, Shuzhen Luo, Chengnan Xu, Hong Zhang, Xuan Wang, Jirong Zhao*. Characterization of the genetic and regulatory networks associated with sugar and acid metabolism in apples via an integrated strategy. Frontiers in plant science, 2022, 13:1066592
[22]	Fei Shen#, Luca Bianco#, Bei Wu#, Zhendong Tian, Yi Wang, Ting Wu, Xuefeng Xu, Zhenhai Han, Riccardo Velasco, Paolo Fontana*, Xinzhong Zhang*. A bulked segregant analysis tool for out-crossing species (BSATOS) and QTL-based genomics-assisted prediction of complex traits in apple. Journal of advanced research, 2022, 42:149-162
[23]	Zhonglong Guo#, Zheng Kuang, Yihan Tao, Haotian Wang, Miaomiao Wan, Chen Hao, Fei Shen, Xiaozeng Yang*, Lei Li*. Miniature Inverted-repeat Transposable Elements Drive Rapid MicroRNA Diversification in Angiosperms. Molecular biology and evolution, 2022, 39(11):msac224
[24]	Zhonglong Guo#, Zheng Kuang, Yang Deng, Lei Li*, Xiaozeng Yang*. Identification of Species-Specific MicroRNAs Provides Insights into Dynamic Evolution of MicroRNAs in Plants. International journal of molecular sciences, 2022, 23(22):14273
[25]	Shixiao Xu#, Yongle Ding#, Juntao Sun#, Zhiqiang Zhang, Zhaoyun Wu, Tiezhao Yang, Fei Shen*, Gang Xue*. A high-quality genome assembly of Jasminum sambac provides insight into floral trait formation and Oleaceae genome evolution. Molecular ecology resources, 2022, 22(2):724-739
[26]	Zhonglong Guo#, Zheng Kuang#, Yongxin Zhao#, Yang Deng#, Hao He, Miaomiao Wan, Yihan Tao, Dong Wang, Jianhua Wei, Lei Li*, Xiaozeng Yang*. PmiREN2.0: from data annotation to functional exploration of plant microRNAs. Nucleic acids research, 2022, 50(D1):D1475-D1482
[27]	Yang Deng#, Haolin Zhang#, Hailong Wang#, Guofang Xing#, Biao Lei, Zheng Kuang, Yongxin Zhao, Congcong Li, Shaojun Dai, Xiaozeng Yang*, Jianhua Wei*, Jiewei Zhang*. The Construction and Exploration of a Comprehensive MicroRNA Centered Regulatory Network in Foxtail Millet (Setaria italica L.). Frontiers in plant science, 2022, 13:848474
[28]	Yang Yu#, Jiantao Guan#, Yaoguang Xu#, Fei Ren#, Zhengquan Zhang, Juan Yan, Jun Fu, Jiying Guo, Zhijun Shen, Jianbo Zhao, Quan Jiang*, Jianhua Wei*, Hua Xie*. Population-scale peach genome analyses unravel selection patterns and biochemical basis underlying fruit flavor. Nature Communications, 2021, 12:3604.
[29]	Jiantao Guan#, Yaoguang Xu#, Yang Yu#, Jun Fu, Fei Ren, Jiying Guo, Jianbo Zhao, Quan Jiang*, Jianhua Wei*, Hua Xie*. Genome structure variation analyses of peach reveal population dynamics and a 1.67 Mb causal inversion for fruit shape. Genome Biology, 2021, 22:13.
[30]	Changlong Chen, Xiaoying Li, Zijing Bo, Wenxiao Du, Lu Fu，Yu Tian，Shuang Cui，Yanxia Shi, Hua Xie*. Occurrence, characteristics and PCR-based detection of Pectobacterium polaris causing soft rot of Chinese cabbage in China. Plant Disease, 2021, 105(10):2880-2887.
[31]	Changlong Chen, Fang Yuan, Xiaoying Li, Rongcai Ma, Hua Xie*. Jasmonic acid and ethylene signaling pathways participate in the defense response of Chinese cabbage to Pectobacterium carotovorum infection. Journal of Integrative Agriculture, 2021, 20 (5):1314-1326.
[32]	Dongjie Jia$, Peng Wu$, Fei Shen$, Wei Li$, Xiaodong Zheng, Yongzhang Wang, Yongbing Yuan, Xinzhong Zhang*, Zhenhai Han*. Genetic variation in the promoter of an R2R3-MYB transcription factor determines fruit malate content in apple (Malus domestica Borkh.). Plant physiology, 2021, 186(1):549-568
[33]	Yongxin Zhao#, Zheng Kuang#, Ying Wang#, Lei Li*, Xiaozeng Yang*. MicroRNA annotation in plants: current status and challenges. Briefings in bioinformatics, 2021, 22(5):bbab075
[34]	Zhenyu Huang#, Fei Shen#, Yuling Chen#, Ke Cao, Lirong Wang*. Chromosome-scale genome assembly and population genomics provide insights into the adaptation, domestication, and flavonoid metabolism of Chinese plum. The Plant journal, 2021, 108(4):1174-1192
[35]	Yang Deng#, Yajuan Qin#, Pan Yang#, Jianjun Du#, Zheng Kuang, Yongxin Zhao, Ying Wang, Dayong Li, Jianhua Wei, Xinyu Guo*, Lei Li*, Xiaozeng Yang*. Comprehensive Annotation and Functional Exploration of MicroRNAs in Lettuce. Frontiers in plant science, 2021, 12:781836
[36]	Zhenyu Huang#, Fei Shen#, Yuling Chen, Ke Cao, Lirong Wang*. Preliminary Identification of Key Genes Controlling Peach Pollen Fertility Using Genome-Wide Association Study. Plants (Basel). 2021, 10(2):242
[37]	Xiaoying Li, Lu Fu, Changlong Chen, Wangwang Sun, Yu Tian, Hua Xie*. Characteristics and Rapid Diagnosis of Pectobacterium carotovorum ssp. Associated with Bacterial Soft Rot of Vegetables in China. Plant Disease, 2020, 104:1158-1166.
[38]	Xuan Wang#, Fei Shen#, Yuan Gao#, Kun Wang#, Ruiting Chen, Jun Luo, Lili Yang, Xi Zhang, Changpeng Qiu, Wei Li, Ting Wu, Xuefeng Xu, Yi Wang, Peihua Cong*, Zhenhai Han*, Xinzhong Zhang. Application of genome-wide insertion/deletion markers on genetic structure analysis and identity signature of Malus accessions. BMC plant biology, 2020, 20(1):540
[39]	Xiaoying Li#, Yali Ma#, Shuqing Liang#, Yu Tian, Sanjun Yin, Sisi Xie, Hua Xie*. Comparative Genomics of 84 Pectobacterium Genomes Reveals the Variations Related to a Pathogenic Lifestyle. BMC Genomics, 2018, 19(1):889.
[40]	Yang Yu#, Jun Fu#, Yaoguang Xu, Jiewei Zhang, Fei Ren, Hongwei Zhao, Shilin Tian, Wei Guo, Xiaolong Tu, Jing Zhao, Dawei Jiang, Jianbo Zhao, Weiying Wu, Gaochao Wang, Rongcai Ma, Quan Jiang*, Jianhua Wei*, Hua Xie*. Genome re-sequencing reveals the evolutionary history of peach fruit edibility. Nature Communications, 2018, 9:5404.
[41]	Xiaoying Li, Yu Tian, Li Song, Hua Xie*. First report of Pseudomonas marginalis isolated from celery with symptom of stem rot in China. Journal of Plant Pathology, 2018, 100: 585.
[42]	Hua Xie, Xiaoying Li, Yali Ma, Yu Tian. First report of Pectobacterium aroidearum causing soft rot of Chinese cabbage in China. Plant Disease, 2018, 102: 674.
[43]	张奇, 张宏宇, 齐新捧, 徐摇光, 葛秀秀*, 谢华*. 桃骨干亲本'Okubo'与'Legrand'全基因组组装与分析. 农业生物技术学报, 2025, 33(7): 1463-1475.
[44]	刘建豪#，荆彦付#，刘月芯，徐摇光，于 洋，葛秀秀*，谢华*. 桃NAC基因家族的鉴定及PpNAC050促进果实果糖积累研究. 园艺学报, 2024, 51(9):1983-1996.
[45]	徐摇光，张政权，于洋，官健涛，谢华*. 桃AQP基因家族成员的鉴定与表达分析. 农业生物技术学报, 2022, 30(7): 1303-1313.
[46]	崔双，陈昌龙，冯佳豪，曹颖，寇晓敏，付璐，张荣萍*，谢华*. 魔芋软腐病致病菌Pectobacterium aroidearum的特征及贝莱斯芽孢杆菌的生防效果. 中国蔬菜, 2021, 3: 83-93.
[47]	孙旺旺，闫丽，陈昌龙，田宇，李晓颖，陈杰，谢华*. 生菜软腐和菌核病拮抗菌贝莱斯芽胞杆菌BPC6鉴定与防效. 中国生物防治学报, 2020, 36(2): 231-240.
[48]	陈昌龙，董岩，田宇，石妙涵，葛秀秀，谢华*. 芹菜转录组数据SSR标记的开发及其遗传多样性分析.农业生物技术学报，2020, 28(4):616-628.
[49]	田宇，李晓颖，石妙涵，孙旺旺，陈昌龙，谢华* . 生菜细菌性软腐病抗性鉴定方法及其资源评价. 华北农学报,2019,34 (增刊):309-317.
[50]	陈昌龙, 赵雪, 孙旺旺, 李晓颖, 田宇, 李未然, 谢华*. 大白菜软腐病抗性相关基因分子标记的开发.农业生物技术学报,2019,27(6):982-992.
[51]	李晓颖, 田宇, 张瑾, 陈昌龙, 谢华* . 大白菜软腐病新病原菌Pectobacterium aroidearum的鉴定及其生物学特性. 植物病理学报, 2018, 48:455-465.
[52]	李晓颖, 田宇, 赵亮, 陈昌龙, 谢华*. 京郊快菜细菌性软腐病病原鉴定. 华北农学报，2018, 33: 63-70.

授权专利：

[1]	陈昌龙；谢华；董洲；田宇。一种自动测量离体植物软腐病斑面积的方法及装置。国家发明专利 ZL202010664458.2，授权时间：2024-04-05
[2]	陈昌龙；谢华；田宇。一种检测蔬菜软腐果胶杆菌的特异性PCR引物和qPCR引物及方法和应用。ZL202011061923.X，授权时间：2022-09-06
[3]	谢华；李晓颖；陈昌龙；田宇。一种特异性引物及其检测方法。ZL201811593856.9，授权时间：2022-06-24
[4]	谢华；徐摇光；官健涛；于洋。一种基于染色体结构变异的桃果实形状早期检测方法。ZL202010636253.3，授权时间：2022-05-17
[5]	徐摇光；谢华；于洋；官健涛。一种用于预测低果糖桃的SNP分子标记及检测方法。ZL202110278213.0，授权时间：2022-04-26
[6]	徐摇光；谢华；于洋；官健涛；任飞。桃果实低酸或酸性状相关的SNP分子标记及其应用。ZL201910836010.1，授权时间：2022-03-18
[7]	谢华；徐摇光；任飞；于洋。一种与桃果实甜酸风味性状相关的SNP标记及其应用。ZL201611091395.6，授权时间：2021-08-20
[8]	谢华；徐摇光；任飞；于洋。与桃果实风味性状相关的SNP标记及其应用。ZL201711182150.9，授权时间：2021-07-21
[9]	谢华；徐摇光；任飞；于洋。与桃果皮绒毛性状相关的SNP标记及其应用。ZL201711181446.9，授权时间：2021-03-16
[10]	谢华；陈昌龙；田宇；孙旺旺。一株广谱抗病的贝莱斯芽孢杆菌及其应用。ZL201910519896.7，授权时间：2020-12-15
[11]	李波；杨效曾；杨飞。一种适用于北方地区莴苣繁种的大棚。ZL202320087025.4，授权时间：2023-07-07
[12]	杨效曾；杨靖；王向峰。 Lsa25711转运肽在叶绿体遗传转化中的应用。ZL202210062843.9，授权时间：2022-04-26
[13]	杨效曾；李波；杨飞；申飞；邓杨。一种用于鉴定莴苣杂交种真实性的方法及其使用的KASP引物组合。ZL202110233141.8，授权时间：2021-11-23
[14]	杨效曾；杨靖；王向峰。一种来源于生菜的叶绿体转运肽Lsa3084及其应用。ZL202210035813.9，授权时间：2022-04-26

获奖情况：

1. 第十五届中国农药工业协会创新贡献奖-技术创新奖-二等奖：贝莱斯芽孢杆菌CGMCC No.14384生物农药的创制与应用（北京市农林科学院生物技术研究所，排名第6）

（四）其它成果

1. 软件著作权：离体白菜软腐病病斑面积自动测量软件【简称：LesionSurvey】V1.0，登记号：2020SR0827202。

2. 软件著作权：‘Vulcano系统V1.0’，登记号码2024SR0849651。

3. 软件著作权：‘Lettuce Genome Database平台[简称：LettuceGDB]V1.0’，登记号码：2022SR0253720