近日�����,北京南宫NG28提供的虫豸呼吸代谢丈量系统在中科院分子植物卓越创新中心实现了装置培训工作��������。该系统为���?槭蕉嗤放渲�����,具备有双通路差分氧气分析系统、高分辨率CO2 与水汽分析系统、双通路2化蚕或多化蚕滞育生理耗氧率监测单元�����,以及Thermo-RGB一体式红表热成像与可见光成像融合分析单元等高端配置��������。未来将用于多种虫豸样品的呼吸与能量代谢丈量�����,助力于虫豸分子遗传、虫豸与植物相互作用、虫豸与微生物相互作用、虫豸发育与畸形、虫豸先天免疫、虫豸RNA选择性剪怯注虫豸生物地理、协同进化、虫豸化学生态学、虫豸生理学和虫豸毒理学等多领域的科学索求��������。
从左至右:实时虫豸呼吸代谢丈量系统、滞育虫豸耗氧丈量单元、分歧虫豸呼吸模式与实时气体互换监测图
南宫NG28专一于为虫豸科学、虫豸与植物互作等动植物钻研领域提供全面且精准的定造化技术解决规划�����,其虫豸呼吸-能量代谢产品线具备以下特点:
l 便携式、���?槭胶嫌糜诜制绲淖暄谐【
高精度、高分辨率、高行业认可度�����,是国内表颁发高质量科学论文数量NO.1的仪器技术
多种系吐洮接、设置、分析模式�����,可测试蕴含所有虫豸和节肢动物等
服务客户蕴含但不限于:虫豸学家、比力生理学家、生态学家和生物医学钻研人员等
l 丰硕矫捷的扩大、兼容、升级职能
支持虫豸行为学、Thermo-RGB融合成像、C13不变性同位素示踪、虫豸肠路甲烷排放监测等
钻研案例
下图为南非斯泰伦博斯大学������;どШ统骢粞悼蒲腥嗽崩酶贸骢艉粑徽闪肯低匙暄辛朔制缥露取⒎制缪醴盅埂⒎制绶⒂锥渭也细霰鸬木却宦剩╒CO2)、最大代谢率(VCO2max)、热敏感度(Q10)等参数�����,钻研数据批注氧气安全边际设定了呼吸空气的该无脊椎动物的热极限�����,这种影响的大幼可能和谐了迄今为止在分歧分类群中发现的氧气限度对热耐受性的差距��������。(Boardman L, Terblanche JS. Oxygen safety margins set thermal limits in an insect model system. J Exp Biol. 2015 Jun;218(Pt 11):1677-85. doi: 10.1242/jeb.120261. PMID: 26041031.)��������。
温度对家蚕Bombyx mori幼虫和蛹V?CO2的影响��������。幼虫(A)的临界氧分压Pcrit迸准(B)低�����,由于氧气的削减仅导致幼虫中V?CO2的显著削减��������。红色圆圈代表V?CO2max������;绿色方块代表V?CO2mean������;蓝色三角形代表V?CO2min������;横坐标代表温度(C�����,D�����,E�����,F)��������。
附部门国内虫豸钻研客户颁发文件目录:
1、Chen, H., Huang, S. P., Lin, C. P., Chen, Z. Y., & Hsu, Y. (2024). Energetically costly weaponry in the large morph of male stag beetles. Journal of Zoology, 324(4), 277-286.
2、Dong, X., Ma, B. & Fang, Y. Integrated respiratory metabolism and hemolymph proteome of caste specific features during honeybee (Apis mellifera L.) development. Sci Data (2026). https://doi.org/10.1038/s41597-026-07396-9
3、J.Zhou, J.Chen, H.Zhang, et al. “A Cold Stress-Activated Endocrine Sentinel Chemical Hormone Promotes Insect Survival via Mitochondrial Adaptations Through the Adipokinetic Hormone Receptor.” Advanced Science13, no. 10 (2026): e09822. https://doi.org/10.1002/advs.202509822
4、Long Ma, Changxia Xu, Yingchuan Peng, Jing Zhang, Wanna Zhang, Sublethal effects of halofenozide on larval development and detoxification in Phaedon brassicae (Coleoptera: Chrysomelidae), Journal of Economic 5、Entomology, Volume 116, Issue 4, August 2023, Pages 1286–1295
6、QIAN, X., WANG, D., LI, S., DOU, J., & JI, R. (2016). Seasonal variation in respiratory metabolism and its adaptive value in Pyrrhocoris apterus. Acta Ecologica Sinica, 36(20), 6602-6606.
7、Tang, T., Yang, L., Ma, L., Ren, Y., Li, M., Guo, S., ... & Liu, F. (2025). Resource reallocation under persistent immune activation drives trade-offs between life history and immunity in pirk-deficient Musca domestica. BMC biology, 23(1), 220.
8、Wang DongMei, W. D., Li Shuang, L. S., Zhang YongJun, Z. Y., Jashenko, R., & Ji Rong, J. R. (2016). Response of the discontinuous gas exchange cycle (DGC) duration in Calliptamus italicus (Orthoptera: Acrididae) to high temperature stress.
9、Xiao, Q. H., Wu, R. W., He, Z., & Zhu, D. H. (2026). Metabolic depression drives discontinuous gas exchange in diapause pupae of Sericinus montelus (Lepidoptera: Papilionidae): a seasonal adaptation strategy. Journal of Insect Physiology, 104954.
10、Zhang, W., Jiang, Z., Ding, M., Wang, X., Huang, A., Qiu, L., & Qi, S. (2025). Novel neonicotinoid insecticide cycloxaprid exhibits sublethal toxicity to honeybee (Apis mellifera L.) workers by disturbing olfactory sensitivity and energy metabolism. Journal of hazardous materials, 485, 136923.
11、Zhang, W., Ma, L., Liu, X., Peng, Y., Liang, G., & Xiao, H. (2021). Dissecting the roles of FTZ‐F1 in larval molting and pupation, and the sublethal effects of methoxyfenozide on Helicoverpa armigera. Pest management science, 77(3), 1328-1338.
12、Zhao L, Zhou J, Chen J, Zhang X, Zhang H, Guo L, Li D, Ning J, Wang X, Jin W, Mai K, Abraham E, Butcher R, Sun J. A chemical signal that promotes insect survival via thermogenesis. Res Sq [Preprint]. 2023 May 11:rs.3.rs-2756320. doi: 10.21203/rs.3.rs-2756320/v1. PMID: 37214941; PMCID: PMC10197781.
13、Zhu, W., Zhang, H., Li, X., Meng, Q., Shu, R., Wang, M., ... & Qin, Q. (2016). Cold adaptation mechanisms in the ghost moth Hepialus xiaojinensis: Metabolic regulation and thermal compensation. Journal of Insect Physiology, 85, 76-85.
