崔峰，博士，研究员，博士生导师，中国科学院动物研究所农业虫害鼠害综合治理研究国家重点实验室，媒介昆虫与病毒基因组学研究组组长。主要研究方向是媒介昆虫-虫媒病毒-寄主互作的分子机理。共发表论文80余篇，其中SCI论文59篇，在PNAS、eLife、Protein & Cell、PLoS Pathogens、New Phytologist、mBio、Philosophical Transactions of the Royal Society B、Journal of Virology、Molecular Plant-Microbe Interactions、GigaScience、Insect Biochemistry and Molecular Biology等期刊上以通讯作者发表文章。中国昆虫学会昆虫比较免疫与互作专业委员会主任，中国昆虫学会基因组专业委员会委员，中国昆虫学会理事，北京昆虫学会理事。主持或做为课题骨干参加的科研项目有科技部“973”项目（子课题主持）、中科院战略性B类先导科技专项（青年课题组长）、国家自然科学基金面上项目、国家科技重大专项、中科院前沿重点研究计划“从0到1”项目等。。

　　1995－1999年，山东农业大学林学院，学士，专业林学师范

　　1999－2002年，山东农业大学植保学院，硕士，专业昆虫生理

　　2003－2006年，中国科学院动物研究所，博士，专业抗性分子遗传学

　　2006年－2008年，中国科学院动物研究所，助理研究员

　　2007－2008年，Kansas State University, Department of Biochemistry, USA，博后

　　2009－2016年，中国科学院动物研究所，副研究员

　　2017年至今，中国科学院动物研究所，研究员

• 水稻条纹病毒调控媒介昆虫RNAi途径C3PO复合物的功能研究，基金委重点项目，主持，2023.01 – 2027.12，在研
• 病毒调控虫媒翅型转换的分子机制，国家重点研发计划子课题，主持，2022.09-2025.12，在研
• 利用蚜虫共生病毒表达杀虫蛋白的技术研发，中科院A类战略性先导科技专项子课题，主持，2020.11-2025.10，在研
• 新一代RNA干扰防虫技术的开发研究，中科院-CSIRO合作项目，主持，2020.04.01-2023.03.31，在研
• 病毒小RNA调控媒介昆虫传播能效的机制研究，中科院前沿重点研究计划“从0到1”项目，主持，2019.09.30-2024.09，在研
• 水稻条纹病毒调控媒介昆虫应激蛋白激酶信号通路的研究，国家自然科学基金面上项目，主持，2018.1-2021.12，已结题
• 灰飞虱与水稻条纹叶枯病种间信息流的识别机制，中国科学院战略性先导科技专项子课题，主持，2014.7-2019.6，已结题
• 唾液腺基因在灰飞虱传播水稻条纹病的作用和机理，国家973计划项目专题，主持，2014.1-2018.12，已结题

　　Lu H^#, Zhu J^#, Yu J, Li Q, Luo L, Cui F^*. 2022. Key role of exportin 6 in exosome-mediated viral transmission from insect vectors to plants. Proc. Natl. Acad. Sci. U.S.A. 119(36): e2207848119.

　　Ma Y^#, Lu H^#, Wang W, Zhu J, Zhao Wan, Cui F^*. 2021. Membrane association of importin α facilitates viral entry into salivary gland cells of vector insects. Proc. Natl. Acad. Sci. U.S.A. 118 (30): e2103393118.

　　Zhao W^#, Zhu JJ^#, Lu H, Zhu JM, Jiang F, Wang W, Luo L, Kang L, Cui F^*. 2022. The nucleocapsid protein of rice stripe virus in cell nuclei of vector insect regulates viral replication. Protein Cell. 13: 360-378.

　　Zhao W, Yu J, Jiang F, Wang W, Kang L, Cui F^*. 2021. Coordination between terminal variation of the viral genome and insect microRNAs regulates rice stripe virus replication in insect vectors. PLoS Pathogens. 17: e1009424.

　　Zhao W^#, Xu Z^#, Zhang X, Yang M, Kang L^*, Liu R^*, Cui F^*. 2018. Genomic variations in the 3'-termini of Rice stripe virus in the rotation between vector insect and host plant. New Phytologist. 219: 1085-1096.

其他发表论文：

1. Zhao W#, Wang W#, Xiao Y, Cui F*. 2023. c-Jun regulates flotillin 2 transcription to benefit viral accumulation in insect vectors. Insect Biochemistry and Molecular Biology. 152:103894.
2. Zhao W, Li Q, Sun M, Xiao Y, Cui F^*. 2022. Interaction between endogenous microRNAs and virus-derived small RNAs controls viral replication in insect vectors. PLoS Pathogens. 18: e1010709.
3. Tong L^#, Chen X^#, Wang W^#, Xiao Y, Yu J, Lu H, Cui F^*. 2022. Alternative splicing landscape of small brown planthopper and different response of JNK2 isoforms to rice stripe virus infection. Journal of Virology. 96: e0171521. Doi: 10.1128/JVI.01715-21.
4. Lu H, Li J, Yang P, Jiang F, Liu H, Cui F^*. 2022. Mutation in the RNA-dependent RNA polymerase of a symbiotic virus is associated with the adaptability of the viral host. Frontiers in Microbiology. 13: 883436.
5. Wang W^#, Qiao L^#, Lu H, Chen X, Wang X, Yu J, Zhu J, Xiao Y, Ma Y, Wu Y, Zhao W, Cui F^*. 2022. Flotillin 2 facilitates the infection of a plant virus in the gut of insect vector. Journal of Virology. 96: e0214021.
6. Ma Y^#, Lu H^#, Wang W, Zhu J, Zhao Wan, Cui F^*. 2021. Membrane association of importin α facilitates viral entry into salivary gland cells of vector insects. Proc. Natl. Acad. Sci. U.S.A. 118 (30): e2103393118.
7. Zhao W, Yu J, Jiang F, Wang W, Kang L, Cui F^*. 2021. Coordination between terminal variation of the viral genome and insect microRNAs regulates rice stripe virus replication in insect vectors. PLoS Pathogens. 17: e1009424. Doi:10.1371/journal.ppat.1009424.
8. Zhao W^#, Zhu JJ^#, Lu H, Zhu JM, Jiang F, Wang W, Luo L, Kang L, Cui F^*. 2021. The nucleocapsid protein of rice stripe virus in cell nuclei of vector insect regulates viral replication. Protein & Cell. DOI: 10.1007/s13238-021-00822-1.
9. Xiao Y^#, Li Q^#, Wang W, Fu Y, Cui F^*. 2021. Regulation of RNA interference pathways in the insect vector Laodelphax striatellus by viral proteins of rice stripe virus. Viruses. 13: 1591.
10. Zhu J, Eid FE, Tong L, Zhao W, Wang W, Heath LS, Kang L, Cui F^*. 2021. Characterization of protein-protein interactions between rice viruses and vector insects. Insect Science. 28: 976-986.
11. Chen X, Yu J, Wang W, Lu H, Kang L^*, Cui F^*. 2020. A plant virus ensures viral stability in the hemolymph of vector insects through suppressing prophenoloxidase activation. mBio. 11: e01453-20. Doi：10.1128/mBio.01453-20.
12. Zhao W^#, Li Q^#, Cui F^*. 2020. Potential functional pathways of plant RNA virus-derived small RNAs in a vector insect. Methods. 183: 38-42.
13. Lu H, Zhu J, Yu J, Chen X, Kang L^*, Cui F^*. 2020. A symbiotic virus facilitates aphid adaptation to host plants by suppressing jasmonic acid responses. Molecular Plant-Microbe Interactions. 33: 55-65.
14. Li S, Jiang F, Lu H, Kang X, Wang Y, Zou Z, Wen D, Zheng A, Liu C, Liu Q, Kang L, Xia Q^*, Cui F^*. 2020. Mosquito diversity and population genetic structure of six mosquito species from Hainan Island. Frontiers in Genetics. 11: 602863. doi: 10.3389/fgene.2020.602863.
15. Zhao W^#, Wang Q^#, Xu Z, Liu R, Cui F^*. 2019. Distinct replication and gene expression strategies of the Rice stripe virus in vector insects and host plants. Journal of General Virology. 100: 877-888.
16. Zhao W^#, Wang Q^#, Xu Z^#, Liu R, Cui F^*. 2019. Immune responses induced by different genotypes of the disease-specific protein of Rice stripe virus in the vector insect. Virology. 527: 122-131.
17. Wang X^#, Wang W^#, Zhang W, Li J, Cui F^*, Qiao L^*. 2019. Immune function of an angiotensin-converting enzyme against Rice stripe virus infection in a vector insect. Virology. 533: 137-144.
18. Li J^#, Zhao W^#, Wang W, Zhang L, Cui F^*. 2019. Evaluation of Rice stripe virus transmission efficiency by quantification of viral load in the saliva of insect vector. Pest Management Science. 75: 1979-1985.
19. Cui N^#, Lu H^#, Wang T, Zhang W, Kang L^*, Cui F^*. 2019. Armet, an aphid effector protein, induces pathogen resistance in plants by promoting the accumulation of salicylic acid. Philosophical Transactions of the Royal Society B-Biological Sciences. 374: 20180314.
20. Zhao W^#, Xu Z^#, Zhang X, Yang M, Kang L^*, Liu R^*, Cui F^*. 2018. Genomic variations in the 3'-termini of Rice stripe virus in the rotation between vector insect and host plant. New Phytologist. 219: 1085-1096.
21. Yang M^#, Xu Z^#, Zhao W^#, Liu Q, Li Q, Lu L, Liu R^*, Zhang X^*, Cui F^*. 2018. Rice stripe virus-derived siRNAs play different regulatory roles in rice and in the insect vector Laodelphax striatellus. BMC Plant Biology. 18: 219.
22. Zhu J^#, Jiang F^#, Wang X, Yang P, Bao Y, Zhao W, Wang W, Lu H, Wang Q, Cui N, Li J, Chen X, Luo L, Yu J, Kang L^*, Cui F^*. 2017. Genome sequence of the small brown planthopper Laodelphax striatellus. GigaScience, 6:1-12. doi: 10.1093/gigascience/gix109.
23. Wang W^#, Zhao W^#, Li J^#, Luo L, Kang L^*, Cui F^*. 2017. The c-Jun N-terminal kinase pathway of a vector insect is activated by virus capsid protein and promotes viral replication. eLife. 6: e26591. DOI: 10.7554/eLife.26591.
24. Zhang L^#, Lu H^#, Guo K^#, Yao S, Cui F^*. 2017. Insecticide resistance status and detoxification enzymes of wheat aphids Sitobion avenae and Rhopalosiphum padi. Science China Life Sciences. 60: 927-930.
25. Guo K, Yang P, Chen J, Lu H, Cui F^*. 2017. Transcriptomic responses of three aphid species to chemical insecticide stress. Science China Life Sciences. 60: 931-934.
26. Cui N^#, Yang P^#, Guo K, Kang L^*, Cui F^*. 2017. Large-scale gene expression reveals different adaptations of Hyalopterus persikonus to winter and summer host plants. Insect Science, 24, 431-442.
27. Zhao W, Yang P, Kang L^*, Cui F^*. 2016. Different pathogenicities of rice stripe virus from the insect vector and from viruliferous plants. New Phytologist. 210: 196-207.
28. Zhao W, Lu L, Yang P, Cui N, Kang L^*, Cui F^*. 2016. Organ-specific transcriptome response of the small brown planthopper toward rice stripe virus. Insect Biochemistry and Molecular Biology, 70: 60-72.
29. Cui F^#, Zhao W^#, Luo L, Kang L. 2016. Rice responses and resistance to planthopper-borned viruses at transcriptomic and proteomic levels. Current Issues in Molecular Biology. 19: 43-52.
30. Lu H, Xu Y, Cui F^*. 2016. Phylogenetic analysis of the ATP-binding cassette transporter family in three mosquito species. Pesticide Biochemistry and Physiology. 132: 118-124.
31. Lu H, Yang P, Xu Y, Luo L, Zhu J, Cui N, Kang L^*, Cui F^*. 2016. Performances of survival, feeding behavior, and gene expression in aphids reveal their different fitness to host alteration. Scientific Reports. 6:19344.
32. Zhang F, Li Q, Chen X, Huo Y, Guo H, Song Z, Cui F, Zhang L, Fang R. 2016. Roles of the Laodelphax striatellus Down syndrome cell adhesion molecule in Rice stripe virus infection of its insect vector. Insect Molecular Biology, 25: 413-421.
33. Pan Y, Zhu J, Luo L, Kang L^*, Cui F^*. 2015. High expression of a unique aphid protein in the salivary glands of Acyrthosiphon pisum. Physiological and Molecular Plant Pathology. 92: 175-180.
34. Wang W, Dai H, Zhang Y, Chandrasekar R, Luo L, Hiromasa Y, Sheng C, Peng G, Chen S, Tomich JM, Reese J, Edwards O, Kang L, Reeck G^*, Cui F^*. 2015. Armet is an effector protein mediating aphid-plant interactions. FASEB Journal. 29: 2032-2045. 
35. Wang W, Luo L, Lu H, Chen S, Kang L, Cui F^*. 2015. Angiotensin-converting enzymes modulate aphid–plant interactions. Scientific Reports, 5: 8885.
36. Cui F^#*, Li M^#, Chang H, Mao Y, Zhang H, Lu L, Yan S, Lang M, Liu L^*, Qiao C. 2015. Carboxylesterase-mediated insecticide resistance: quantitative increase induces broader metabolic resistance than qualitative change. Pesticide Biochemistry and Physiology, 121: 88-96.
37. Wang W, Liu S, Liu Y, Qiao C, Chen S^*, Cui F^*. 2015. Over-transcription of genes in a parathion-resistant strain of mosquito Culex pipiens quinquefasciatus. Insect Science, 22: 150-156.
38. Cui F^#, Wang H^#, Zhang H, Kang L. 2014. Anoxic stress and rapid cold hardening enhance cold tolerance of the migratory locust. Cryobiology, 69: 243-248.
39. Guo K, Wang W, Luo L, Chen J, Guo Y, Cui F^*. 2014. Characterization of an aphid-specific, cysteine-rich protein enriched in salivary glands. Biophysical Chemistry, 189: 25-32.
40. Wang X, Fang X, Yang P, Jiang X, Jiang F, Zhao D, Li B, Cui F, Wei J, Ma C, Wang Y, He J, Luo Y, Wang Z, Guo X, Guo W, Wang X, Zhang Y, Yang M, Hao S, Chen B, Ma Z, Yu D, Xiong Z, Zhu Y, Fan D, Han L, Wang B, Chen Y, Wang J, Yang L, Zhao W, Feng Y, Chen G, Lian J, Li Q, Huang Z, Yao X, Lv N, Zhang G, Li Y, Wang J, Wang J, Zhu B, Kang L. 2014. The locust genome provides insight into swarm formation and long-distance flight. Nature Communications, 5: 2957.
41. Mao Y, Tan F, Yan S, Wu G, Qiao C, Zhang W^*, Cui F^*. 2013. High-throughput genotyping of single-nucleotide polymorphisms in ace-1 gene of mosquitoes using MALDI-TOF mass spectrometry. Insect Science, 20: 167-174.
42. Wang Y, Yang P, Cui F, Kang L. 2013. Altered immunity in crowded locust reduced fungal (Metarhizium anisopliae) pathogenesis. PLoS Pathogens, 9: e1003102.
43. Yan S, Nan P, Cui F, Wu Z, Qiao C. (2013). Distribution and dynamics of esterase alleles in Culex pipiens complex in China. Journal of Asia-Pacific Entomology, 16, 43-48.
44. Yan L, Yang P, Jiang F, Cui N, Ma E, Qiao C, Cui F^*. 2012. Transcriptomic and phylogenetic analysis of Culex pipiens quinquefasciatus for three detoxification gene families. BMC genomics, 13: 609.
45. Zhang H, Meng F, Qiao C, Cui F^*. 2012. Identification of resistant carboxylesterase alleles in Culex pipiens complex via PCR-RFLP. Parasites & Vectors, 5: 209.
46. Wang H^#, Ma Z^#, Cui F^#, Wang X, Guo W, Lin Z, Yang P, Kang L. 2012. Parental phase status affects the cold hardiness of progeny eggs in locusts. Functional Ecology, 26, 379-389.
47. Cui F, Smith CM, Reese J, Edwards O, Reeck G. 2012. Polymorphisms in salivary-gland transcripts of Russian wheat aphid biotypes 1 and 2. Insect Science, 19, 429-440.
48. Gong L^#, Cui F^#, Sheng C, Lin Z, Reeck G, Xu J, Kang L. 2012. Polymorphism and methylation of four genes expressed in salivary glands of Russian wheat aphid (Homoptera: Aphididae). Journal of Economic Entomology, 105: 232-241. (IF: 1.4) (* co-first author)
49. Lan W, Chen G, Cui F, Tan F, Liu R, Yushupujiang M. 2012. Development of a novel optical biosensor for detection of organophoshorus pesticides based on methyl parathion hydrolase immobilized by metal-chelate affinity. Sensors, 12, 8477-8490.
50. Yang J, Liu R, Song W, Yang Y, Cui F, Qiao C. 2012. Construction of a genetically engineered microorganism that simultaneously degrades organochlorine and organophosphate pesticides. Applied Biochemistry and Biotechnology, 166: 590-598.
51. Liu Y, Zhang H, Qiao C, Lu X^*, Cui F^*. 2011. Correlation between carboxylesterase alleles and insecticide resistance in Culex pipiens complex from China. Parasites & Vectors, 4: 236.
52. Cui F^#, Lin Z^#, Wang H, Liu S, Chang H, Reeck G, Qiao C, Raymond M, Kang L. 2011. Two single mutations commonly cause qualitative change of nonspecific carboxylesterases in insects. Insect Biochemistry and Molecular Biology, 41: 1-8. (IF: 4.0)
53. James C Carolan, Doina Caragea, Karen T Reardon, Navdeep S Mutti, Neal Dittmer, Kirk Pappan, Feng Cui, Marisol Castaneto, Julie Poulain, Carole Dossat, Denis Tagu, John C. Reese, Gerald R. Reeck, Thomas L Wilkinson, and Owain R. Edwards. 2011. Predicted effector molecules in the salivary secretome of the pea aphid (Acyrthosiphon pisum)-A dual transcriptomic-proteomic approach. Journal of Proteome Research, 10: 1505-1518. (IF: 5.4)
54. Shuaiguo Yan, Feng Cui and Chuan-Ling Qiao. 2009. Structure, function and applications of insect carboxylesterases evolved for insecticide resistance. Protein and Peptide Letters, 16: 1181-1188. (IF: 1.8)
55. Shuaiguo Yan, Zhonghua Wu, Feng Cui, Qiao Zhao and Chuan-Ling Qiao. 2008. Dynamics of esterase alleles in Culex pipiens complex mosquitoes in Beijing. Journal of Economic Entomology, 101: 1897-1902. (IF: 1.4)
56. Feng Cui, Hong Qu, Jian Cong, Xiao-Li Liu and Chuan-Ling Qiao. 2007. Do mosquitoes acquire organophosphate resistance by functional changes in carboxylesterases? The FASEB Journal, 21: 3584-3591. (IF: 6.5)
57. Feng Cui, Mylene Weill, Arnaud Berthomieu, Michel Raymond and Chuan-Ling Qiao. 2007. Characterization of novel esterases in insecticide-resistant mosquitoes. Insect Biochemistry and Molecular Biology, 37: 1131-1137. (IF: 4.0)
58. Feng Cui, Yi Tan and Chuan-Ling Qiao. 2007. Filariasis vector in China: insecticide resistance and population structure of mosquito Culex pipiens complex. Pest Management Science, 63: 453-458. (IF: 2.3)
59. Feng Cui, Chuan-Ling Qiao, Ben-Chang Shen, Maite Marquine, Mylene Weill and Michel Raymond. 2007. Genetic differentiation of Culex pipiens in China. Bulletin of Entomological Research, 97: 291-297. (IF: 1.9)
60. Haoues Alout, Arnaud Berthomieu, Feng Cui, Yi Tan, Claire Berticat, Chuan-Ling Qiao and Mylene Weill. 2007. Different amino-Acid substitutions confer insecticide resistance through acetylcholinesterase 1 insensitivity in Culex vishnui and Culex tritaeniorhynchus (Diptera: Culicidae) from China. Journal of Medical Entomology, 44: 463-469. (IF: 1.9)
61. Feng Cui, Michel Raymond, Arnaud Berthomieu, Haoues Alout, Mylene Weill and Chuan-Ling Qiao. 2006. Recent emergence of insensitive acetylcholinesterase in Chinese populations of the mosquito Culex pipiens. Journal of Medical Entomology, 43: 878-883. (IF: 1.9)
62. Feng Cui, Michel Raymond and Chuan-Ling Qiao. 2006. Insecticide resistance of vector mosquitoes in China. Pest Management Science, 62: 1013-1022. (IF: 2.3)
63. Feng Cui, Li-Feng Lin, Chuan-Ling Qiao, Ying Xu, Maite Marquine, Mylene Weill and Michel Raymond. 2006. Insecticide resistance in Chinese populations of the Culex pipiens complex through esterase overproduction. Entomologia Experimentalis et Applicata, 120: 211-220. (IF: 1.4)
64. K. ZHANG, Z-Q. YE, F. CUI and C-L. QIAO. 2003. Significance of passive migration in evolution of insecticide resistance in the mosquito Culex pipiens (Diptera: Culicidae). Entomologia Sinica, 10: 231-236.
65. 俞金婷, 陈小芳, 任应党, 崔峰^*. 2020. 植物病媒昆虫的翅型分化.昆虫学报，63(2): 229－234.
66. 罗岚，崔峰^*. 2018.一株新的致倦库蚊细胞系的建立与鉴定.昆虫学报，61（1）:79-85.
67. 赵 婉,王少丽,朱家明,张友军,康 乐,崔 峰^*.2017.媒介昆虫与植物病毒互作研究进展.应用昆虫学报，54（3）:372-379.
68. 王炜，陈少良^*，崔峰^*.2014. 致倦库蚊GSTe1和CYP9J40的时空表达特点. 应用昆虫学报，51 (6)：1538-1544. （*通讯作者）
69. 刘长莉，卢利霞，许艳丽，杨鹏程，崔峰^*. 2013. 灰飞虱唾液腺三大解毒酶家族的转录组分析. 昆虫学报，56 (12): 1509-1515.（*通讯作者）
70. 张柳平，姚淑敏，林哲，崔峰^*. 2013. 两个单点突变对昆虫羧酸酯酶降解马拉硫磷的影响. 昆虫学报，56 (5): 566-569.（*通讯作者）
71. 岳秋娟，姚淑敏，刘洋洋，刘石娟，崔峰^*. 2013. 一个致倦库蚊杀虫剂敏感品系的筛选. 昆虫学报，56 (4): 379-384.（*通讯作者）
72. 谭烽，兰文升，崔峰，乔传令，陈雯莉. 2012. 蚊虫乙酰胆碱酯酶的真核表达、纯化及活性测定. 华中农业大学学报，31(4)：423-427.
73. 刘斯璐，毛芸，乔传令，崔峰^*. 2012. 抑制性差减杂交技术在蚊虫研究中的应用. 应用昆虫学报，49 (6): 1670-1676. （*通讯作者）
74. 董循, 潘海, 雷桂兰, 吴中华, 崔峰, 乔传令. 2012. 湖北省黄州区三带喙库蚊抗药性调查及武昌罗索线虫感染对其影响研究. 中国媒介生物学及控制杂志，23 (6): 512-515.
75. 张柳平，卢利霞，刘石娟，康乐，崔峰^*. 2011. 蚜虫基因组及功能基因组研究进展. 应用昆虫学报，48 (6): 1539-1543.（*通讯作者）
76. 张燕，吴国星，郭昆，王炜，丁旭坡，宋希明，许永玉*，崔峰^*. 2011. 豌豆蚜唾液蛋白家族的克隆及在不同发育阶段的表达. 昆虫学报，54 (12): 1445-1451.（*通讯作者）
77. 常海静，刘洋洋，江红，乔传令，卢希平，郎明林*，崔峰^*. 2011.酯酶显色法快速检测尖音库蚊对有机磷的抗性. 中国媒介生物学及控制杂志, 22 (4): 332-335. （*通讯作者）
78. 闫亮珍，乔传令，张建珍，马恩波*，崔峰^*. 2011. 致倦库蚊主要组织结构的石蜡切片观察. 昆虫学报，54 (3): 373-380. （*通讯作者）
79. 刘斯璐，崔峰，燕帅国，乔传令. 2011. 中国媒介蚊虫对有机氯类和氨基甲酸酯类杀虫剂的抗性调查. 中国媒介生物学及控制杂志，22（1）, 82-85.
80. 刘斯璐，崔峰，燕帅国，乔传令. 2011. 中国媒介蚊虫对有机磷类和拟除虫菊酯类杀虫剂的抗性调查. 中国媒介生物学及控制杂志，22（2）, 184-189.
81. 乔传令, 崔峰. 2010. 蚊虫杀虫药剂的抗性及其防治策略. 中国媒介生物学及其控制杂志, 21(2): 89-92.
82. 寇宇, 于新芬, 叶榕, 潘劲草，崔峰，乔传令. 2009. 尖音库蚊复组有机磷抗性相关酯酶B2基因杂合型的分子特征. 中华预防医学杂志, 43(5)：390-394.
83. 崔峰,乔传令. 2007. 蚊虫抗药性分子机理. 昆虫知识, 44(5), 621-626.
84. 寇宇， 叶榕，潘劲草， 乔传令， 崔峰， 于新芬，黄志成. 2007. 复合PCR—RFLP技术用于尖音库蚊复组抗性相关酯酶基因分子分型. 中国媒介生物学及控制杂志，18 (4)，269-271.
85. 寇宇，乔传令，潘劲草，崔峰，叶榕，于新芬. 2007. 杭州市库蚊复组抗性相关酯酶Estβ基因类型和频率及动态分布. 中华预防医学杂志，41 (6)，483-486.
86. 崔峰，寇宇，乔传令. 2006. 杭州地区尖音库蚊复合组的抗药性动态. 昆虫知识，43（1），78-81.
87. 崔峰,谭毅,苏爱芳,符绩超,朱庆,乔传令. 2005. 不同地理种群尖音库蚊复组杀虫药剂抗性及抗性酯酶. 中国媒介生物学及控制杂志，16（6），413-415.
88. 崔峰，徐洪富，宋红梅，王竑晟，许永玉. 2004. 甜菜夜蛾胚胎发育的研究(Ⅰ)——卵裂、胚盘、胚带的形成及胚层分化. 山东农业大学学报，35（2）,213-216.
89. 崔峰，徐洪富，王竑晟，许永玉，孙炳香. 2004. 甜菜夜蛾胚胎发育的研究(Ⅱ)--体腔、体壁、循环系统和部分器官的发育. 华东昆虫学报，13（1）,32-37.
90. 崔峰，徐洪富，王竑晟，周真. 2004. 甜菜夜蛾胚胎发育的研究(Ⅲ)--呼吸、消化、神经、生殖系统的发育. 西北农业学报，13（2）：64～66。
91. 崔峰，徐洪富，周真，许永玉，王竑晟. 2003. 甜菜夜蛾胚胎发育的解剖学特征. 山东农业大学学报，34（3）：339～342。
92. 崔峰，徐洪富，许永玉，刘勇，王竑晟. 2002. 抗虫棉研究的进展、问题与对策. 植物保护学报，29（4）：371～376。

授权专利：

　　崔峰，张寒英，申本昌，乔传令. 辅助鉴定库蚊携带的羧酸酯酶等位基因的专用引物及其应用. 授权，专利号：201010575017.1. 2013年授权

　　江红，崔峰，兰文升，乔传令. 检测水体中是否存在杀虫剂及杀虫剂含量范围的试剂盒. 授权，专利号：ZL201110136901.X. 2014年授权

　　崔峰，康乐，王炜，赵婉，王风忠. 一种控制水稻条纹病毒传播的方法. 授权，专利号：ZL201710275199.2 2019年8月20日授权

著作：

　　卢虹，崔峰. 唾液蛋白调控昆虫适应植物的生态基因组学研究. 《生态基因组学》，康乐， 288-302，科学出版社，2019.9

　　赵婉，崔峰. 昆虫-病毒互作的生态基因组学研究. 《生态基因组学》，康乐， 319-333，科学出版社，2019.9