Western及IP细胞裂解液(无抑制剂)(P0013J)

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试剂> 多肽与蛋白> 蛋白样品制备> 裂解及蛋白抽提

Western及IP细胞裂解液(无抑制剂)

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产品编号: P0013J

产品包装:100ml

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产品编号	产品名称	产品包装	产品价格
P0013J	Western及IP细胞裂解液(无抑制剂)	100ml	131.00元

Western及IP细胞裂解液(无抑制剂)(Cell lysis buffer for Western and IP without inhibitors)，是一种在非变性条件下裂解细胞或组织样品从而制备蛋白样品的裂解液。本细胞裂解液裂解的细胞或组织样品，可以用于PAGE，Western，免疫沉淀(immunol precipitation，IP)，免疫共沉淀(co-IP)和ELISA等，以及许多兼容1% Triton X-100的酶活性或者生物小分子的检测。使用本裂解液时，用户可以根据具体用途自行添加特定抑制剂或者不添加抑制剂。
本产品可以用于动物、植物的细胞或组织样品，也可以用于真菌或细菌样品。
碧云天生产的不同裂解液的主要特点和差异，以及如何选择裂解液可参考我们的相关网页：
http://www.beyotime.com/support/lysis-buffer.htm。
Western及IP细胞裂解液(无抑制剂)的主要成分为20mM Tris(pH7.5)，150mM NaCl，1% Triton X-100，不含蛋白酶、磷酸酯酶等抑制剂可以有效维持原有的蛋白间相互作用。
使用本裂解液获得的蛋白样品，如果用于酶活性检测或一些生物小分子的检测，需要测试标准品用本裂解液稀释后是否会显著影响标准曲线。如果本裂解液对于标准曲线无显著影响，则可以使用本裂解液。
用Western及IP细胞裂解液(无抑制剂)裂解得到的蛋白样品，可以用碧云天生产的BCA蛋白浓度测定试剂盒(P0009/P0010/
P0010S/P0011/P0012/P0012S)测定蛋白浓度。由于含有较高浓度的Triton X-100等干扰物质，不能用Bradford法测定由本裂解液裂解得到样品的蛋白浓度。
包装清单：

产品编号	产品名称	包装
P0013J	Western及IP细胞裂解液(无抑制剂)	100ml
—	说明书	1份

保存条件：
-20℃保存，一年有效。频繁使用时，可以短期4℃保存。
注意事项：
需自备PMSF。PMSF(ST506)可以向碧云天订购。也可以选购总体效果更佳的碧云天生产的P1045/P1046 蛋白酶磷酸酶抑制剂混合物(通用型, 50X)，或者根据具体用途选择P1048/P1049 蛋白酶磷酸酶抑制剂混合物(通用型, 质谱兼容, 50X)、P1050/P1051蛋白酶磷酸酶抑制剂混合物(哺乳动物样品抽提用, 50X)、P1055/P1056 蛋白酶磷酸酶抑制剂混合物(植物样品抽提用, 50X)、P1060/P1061 蛋白酶磷酸酶抑制剂混合物(真菌或酵母抽提用, 50X)、P1065/P1066 蛋白酶磷酸酶抑制剂混合物(细菌抽提用, 50X)。如果无需检测磷酸化蛋白，也可以选不含磷酸酶抑制剂的蛋白酶抑制剂化合物。
裂解样品的所有步骤都需在冰上或4℃进行。
关于裂解液的选择，一方面可以参考碧云天的相关网页：http://www.beyotime.com/support/lysis-buffer.htm选择合适的裂解液；另一方面也需要通过一些预实验来摸索最佳的适合您实验条件的裂解液。
本产品仅限于专业人员的科学研究用，不得用于临床诊断或治疗，不得用于食品或药品，不得存放于普通住宅内。
为了您的安全和健康，请穿实验服并戴一次性手套操作。

使用说明：
1.对于培养细胞样品：
a.融解Western及IP细胞裂解液(无抑制剂)，混匀。取适当量的裂解液，在使用前数分钟内加入PMSF，使PMSF的最终浓度为1mM，或者根据实验需要加入适当的上述蛋白酶磷酸酶抑制剂混合物。
b.对于贴壁细胞：去除培养液，用PBS、生理盐水或无血清培养液洗一遍(如果血清中的蛋白没有干扰，可以不洗)。按照6孔板每孔加入100-200微升裂解液的比例加入裂解液。用枪吹打数下，使裂解液和细胞充分接触。通常裂解液接触动物细胞1-2秒后，细胞就会被裂解。植物细胞宜在冰上裂解2-10min。
对于悬浮细胞：离心收集细胞，轻轻vortex或者弹击管底以把细胞尽量分散开。按照6孔板每孔细胞加入100-200微升裂解液的比例加入裂解液。轻弹管底以充分裂解细胞。充分裂解后应没有明显的细胞沉淀。如果细胞量较多，必需分装成50-100万细胞/管，然后再裂解。大团的细胞较难裂解充分，而少量的细胞由于裂解液容易和细胞充分接触，相对比较容易裂解充分。
对于细菌或酵母：对于1ml菌液或酵母液，离心去上清，如果有必要可以使用PBS洗涤一次，充分去除液体后，轻轻vortex或者弹击管底以把细菌或酵母尽量弹散。加入100-200微升裂解液，轻轻vortex或者弹击管底以混匀，冰上裂解2-10min。如果希望获得更好的裂解效果，细菌和酵母可以分别使用溶菌酶和破壁酶(Lyticase)消化，然后再使用本裂解液进行裂解。
裂解液用量说明：通常6孔板每孔细胞或者1ml的菌液或酵母液中的细菌和酵母量加入100微升裂解液已经足够，但如果细胞密度非常高可以适当加大裂解液的用量到150微升或200微升。每100万动物细胞用100微升本产品裂解后获得的上清，其蛋白浓度约为2-4mg/ml，不同细胞有所不同。
c.充分裂解后，10000-14000g离心3-5分钟，取上清，即可进行后续的PAGE、Western、免疫沉淀、免疫共沉淀、酶或生物小分子检测等操作。
2.对于组织样品：
a.把组织剪切成细小的碎片。
b.融解Western及IP细胞裂解液(无抑制剂)，混匀。取适当量的裂解液，在使用前数分钟内加入PMSF，使PMSF的最终浓度为1mM，或者根据实验需要加入适当的上述蛋白酶磷酸酶抑制剂混合物。
c.按照每20毫克组织加入100-200微升裂解液的比例加入裂解液。(如果裂解不充分可以适当添加更多的裂解液，如果需要高浓度的蛋白样品，可以适当减少裂解液的用量。)
d.用玻璃匀浆器匀浆，或使用碧云天生产的E6600 TissueMaster™手持式组织研磨仪研磨，直至充分裂解。也可以把组织样品冷冻后液氮研磨，研磨充分后加入裂解液进行裂解。
e.充分裂解后，10000-14000g离心3-5分钟，取上清，即可进行后续的PAGE、Western、免疫沉淀和免疫共沉淀等操作。每20mg冻存的小鼠肝脏组织用200微升本裂解液裂解后获得的上清，其蛋白浓度约为15-25mg/ml，不同状态的不同组织有所不同。
f.如果组织样品本身非常细小，可以适当剪切后直接加入裂解液裂解，通过强烈vortex使样品裂解充分。然后同样离心取上清，用于后续实验。直接裂解的优点是比较方便，不必使用匀浆器或研磨设备，缺点是不如匀浆或研磨那样裂解比较充分。
附录：碧云天生产的各种裂解液主要特点、差异和选择
首先请参考下表，了解各种裂解液的主要特点和差异。

产品编号	P0013	P0013B	P0013C	P0013D	P0013F	P0013G	P0013J	P0013K
产品名称	Western及IP细胞裂解液	RIPA裂解液(强)	RIPA裂解液(中)	RIPA裂解液(弱)	NP-40裂解液	SDS裂解液	Western及IP细胞裂解液(无抑制剂)	RIPA裂解液(强，无抑制剂)
有效裂解成分	1% Triton X-100	1% Triton X-100, 1% deoxycholate, 0.1% SDS	1% NP-40, 0.5% deoxycholate, 0.1% SDS	1% NP-40, 0.25% deoxycholate	1% NP-40	1% SDS	1% Triton X-100	1% Triton X-100, 1% deoxycholate, 0.1% SDS
裂解强度	温和	强	中	温和	温和	强	温和	强
对膜蛋白的提取	一般	很好	较好	一般	一般	很好	一般	很好
对胞浆蛋白的提取	很好	很好	很好	很好	很好	很好	很好	很好
对核蛋白的提取	较好	很好	较好	较好	较好	很好	较好	很好
胞浆磷酸化蛋白提取	很好	很好	很好	很好	很好	很好	很好	很好
细胞核转录因子提取	很好	很好	很好	很好	很好	很好	很好	很好
含蛋白酶抑制剂	是	是	是	是	是	是	否	否
含磷酸酯酶抑制剂	是	是	是	是	是	是	否	否
不同物种样品兼容性	高	高	高	高	高	高	高	高
主要用途	WB, IP,co-IP	WB, IP	WB, IP	WB, IP, co-IP	WB, IP,co-IP	WB, ChIP	WB, IP,co-IP	WB, IP

用于普通的Western、IP或co-IP，我们推荐使用Western及IP细胞裂解液(P0013)，该裂解液已被国内各大研究机构广泛使用，发表大量SCI论文，用户普遍反映很好。裂解细胞或组织后，没有非常粘滞的透明状DNA团块形成，不必采用超声处理等就可以非常理想地用于后续操作。另外该裂解液裂解的产物也适合用于磷酸化蛋白的Western检测。
对于某些特殊蛋白的IP，如果发现Western及IP细胞裂解液(P0013)效果不是非常理想，可以尝试用RIPA裂解液(强、中或弱)或NP-40裂解液。如果发现IP的时候背景很高，即非特异的蛋白也被IP下来，则需要选用裂解强度较高的裂解液，例如RIPA裂解液(强或中)。如果发现目的蛋白无法被IP下来，则说明裂解液的强度过强，可以使用较为温和的裂解液例如RIPA裂解液(弱)或NP-40裂解液。
对于某些难溶解蛋白的Western，如果发现Western及IP细胞裂解液(P0013)效果不是非常理想，可以尝试使用裂解强度更高的裂解液例如RIPA裂解液(强、中)或SDS裂解液。使用RIPA裂解液(强)的用户也非常多，发表了大量SCI论文。
用于特定用途需要自行添加特定抑制剂或不需要添加抑制剂时，可以考虑选购P0013J或P0013K。P0013J在很多时候可以兼容酶活性和生物小分子的检测，对于特定的酶或生物小分子的检测是否兼容需要自行测试，碧云天不提供具体的应用信息。P0013J的裂解能力比P0013K弱一些，但用于酶活性和生物小分子时，P0013J的兼容性通常会更好一些。

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Int Immunopharmacol. 2016 Sep;38:349-56. (IF 3.943)

36. Shao F, Tan T, Tan Y, Sun Y, Wu X, Xu Q.

Andrographolide alleviates imiquimod-induced psoriasis in mice via inducing autophagic proteolysis of MyD88.

Biochem Pharmacol. 2016 Sep 1;115:94-103. (IF 4.96)

37. Yan Y, Huang F, Yuan T, Sun B, Yang R.

HIV-1 Vpr increases HCV replication through VprBP in cell culture.

Virus Res. 2016 Sep 2;223:153-60. (IF 2.934)

38. Yao P, Hongqian C, Qinghe M, Lanqin S, Jianjun J, Xiaohua Y, Xuetao W, Weidong H.

Lack of TAK1 in dendritic cells inhibits the contact hypersensitivity response induced by trichloroethylenein local lymph node assay.

TOXICOL APPL PHARM . 2016 Sep 15;307:72-80. (IF 3.616)

39. Tang X, Huang B, Zhang L, Li L, Zhang G.

TANK-binding kinase-1 broadly affects oyster immune response to bacteria and viruses.

FISH SHELLFISH IMMUN. 2016 Sep;56:330-5. (IF 3.298)

40. Yu X, Jin D, Yu A, Sun J, Chen X, Yang Z.

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Gene. 2016 Sep 1;589(1):12-9. (IF 2.984)

41. Wang D, Zhang J, Lu Y, Luo Q, Zhu L.

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IUBMB Life. 2016 Sep;68(9):748-55. (IF 3.244)

42. Wei Y, Hu J, Liang Y, Zhong Y, He D, Qin Y, Li L, Chen J, Xiao Q, Xie Y.

Dexmedetomidine pretreatment attenuates propofol induced neurotoxicity in neuronal cultures from the rat hippocampus.

Mol Med Rep. 2016 Oct;14(4):3413-20. (IF 2.1)

43. Tang X, Ma H, Han L, Zheng W, Lu YB, Chen XF, Liang ST, Wei GH, Zhang ZQ, Chen HZ, Liu DP.

SIRT1 deacetylates the cardiac transcription factor Nkx2.5 and inhibits its transcriptional activity.

SCI REP-UK. 2016 Nov 7;6:36576. (IF 3.998)

44. Wei F, Wang Q, Su Q, Huang H, Luan J, Xu X, Wang J.

miR-373 Inhibits Glioma Cell U251 Migration and Invasion by Down-Regulating CD44 and TGFBR2.

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45. Zhang J, Shi R, Li H, Xiang Y, Xiao L, Hu M, Ma F, Ma CW, Huang Z.

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J Ethnopharmacol. 2016 Nov 4;192:413-422. (IF 3.69)

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48. Wang C, Xu B, Song QF, Deng Y, Liu W, Xu ZF.

Manganese exposure disrupts SNARE protein complex-mediated vesicle fusion in primary cultured neurons.

Environ Toxicol. 2017 Feb;32(2):705-716. (IF 3.118)

49. Sun W, Wang X, Hou C, Yang L, Li H, Guo J, Huo C, Wang M, Miao Y, Liu J, Kang Y.

Oleuropein improves mitochondrial function to attenuate oxidative stress by activating the Nrf2 pathway in the hypothalamic paraventricular nucleus of spontaneously hypertensive rats.

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52. Wang L, Xie Y, Yang W, Yang Z, Jiang S, Zhang C, Zhang G

Alfalfa polysaccharide prevents H2O2-induced oxidative damage in MEFs by activating MAPK/Nrf2 signaling pathways and suppressing NF-κB signaling pathways.

SCI REP-UK. 2019 Feb 11 9(1):1782. (IF 3.998)

53. Yang S, Guo S, Tong S, Sun X

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54. Li F, Song X, Su G, Wang Y, Wang Z, Qing S, Jia J, Wang Y, Huang L, Zheng K, Wang Y

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55. Yin W, Yang L, Kong D, Nie Y, Liang Y, Teng CB

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Exp Cell Res. 2019 Aug 1 381(1):139-149. (IF 3.383)

56. Chen J, Chen X, Yao J, Li M, Yang X

The combination of Decitabine and EPZ-6438 effectively facilitate adipogenic differentiation of induced pluripotent stem cell-derived mesenchymal stem cells.

BIOCHEM BIOPH RES CO. 2019 Aug 13 516(1):307-312. (IF 2.985)

57. Deng M, Sun J, Xie S, Zhen H, Wang Y, Zhong A, Zhang H, Lu R, Guo L

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Mol Med Rep. 2019 Sep 20(3):2258-2266. (IF 2.1)

58. Yanling Wang, Lulu Ji, Zhihong Peng, Rujie Lai, Xiaoli Zhang, Yating Xu, Zhiguo Chen, Rui Liu, Yu Zhong, Hanyang Hu, Lin Wang

Silencing DAPK3 blocks the autophagosome-lysosome fusion by mediating SNAP29 in trophoblast cells under high glucose treatment

Mol Cell Endocrinol. 2020 Feb 15;502:110674. doi: 10.1016/j.mce.2019.110674. (IF 3.871)

59. Runlan Wan, Xi Kong, Youzhe Yang, Siwen Tao, Youyou Chen, Alexander Tobias Teichmann, Frank Heinrich Wieland

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J Steroid Biochem Mol Biol. 2020 Apr;198:105527. doi: 10.1016/j.jsbmb.2019.105527.

60. Guodong Ge, Yong Long, Lianyu Shi, Jing Ren, Junjun Yan, Chitao Li, Qing Li, Zongbin Cui

Transcriptomic profiling revealed key signaling pathways for cold tolerance and acclimation of two carp species

BMC Genomics. 2020 Aug 5;21(1):539. doi: 10.1186/s12864-020-06946-8. (IF 3.594)

61. Chunbao Rao, Biyang Guan, Dong Luo, Qin Deng, Qi Peng, Zitian Lin, Meihua Huang, Ming Qi, Baimao Zhong, Xiaomei Lu

Identification of pathogenic variants of ERLEC1 in individuals with Class III malocclusion by exome sequencing

Hum Mutat. 2020 Aug;41(8):1435-1446. doi: 10.1002/humu.24054. (IF 4.124)

62. Shi Cheng, Dongdong Zhang, Mei Li, Xuanyong Liu, Yu Zhang, Shi Qian, Feng Peng

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Bioact Mater. 2020 Aug 11;6(1):91-105. doi: 10.1016/j.bioactmat.2020.07.014.

63. Zexi Xu, Yadong Li, Dahong Wang, Daoqiu Wu, Jinyun Wang, Lian Chen, Yinqian Deng, Jing Zhang, Zhixiong Wu, Xin Wan, Qianfan Liu, Hai Huang, Pingsheng Hu, Jiawei Zeng, Ding'an Zhou

Mutated SASH1 promotes Mitf expression in a heterozygous mutated SASH1 knock‑in mouse model

Int J Mol Med. 2020 Sep;46(3):1118-1134. doi: 10.3892/ijmm.2020.4652. (IF 3.098)

64. Meixiong Cheng, Yi Zeng, Tian Zhang, Min Xu, Zhili Li, Yaqiu Wu

Transcription Factor ELF1 Activates MEIS1 Transcription and Then Regulates the GFI1/FBW7 Axis to Promote the Development of Glioma

Mol Ther Nucleic Acids. 2020 Oct 15;23:418-430. doi: 10.1016/j.omtn.2020.10.015.

65. Xiao Li, Nan Niu, Jing Sun, Yiping Mou, Xujun He, Linhang Mei

IL35 predicts prognosis in gastric cancer and is associated with angiogenesis by altering TIMP1, PAI1 and IGFBP1

FEBS Open Bio. 2020 Dec;10(12):2687-2701. doi: 10.1002/2211-5463.13005. (IF 2.231)

66. Lei Lan, Miao Xu, Jia Li, Lin Liu, Min Xu, Chenxing Zhou, Lei Shen, Zongxiang Tang, Fengyi Wan

Cell Signal. 2020 Dec;76:109813. doi: 10.1016/j.cellsig.2020.109813. (IF 3.968)

67. Danmei Tian, Lingyun Cao, Qingwen Li, Huiyun Huang, Wei Xu, Guodong Chen, Zhaohui Song, Yi He, Xinsheng Yao, Jinshan Tang

Benzannulated 5,5-spiroketal sesquiterpenes from the roots of Angelica Pubescens

Bioorg Chem. 2021 Feb;107:104604. doi: 10.1016/j.bioorg.2020.104604. (IF 4.831)

68. Linyan Wang, Juan Zhang

Long intergenic ncRNA 00473 improves the invasion of trophoblastic cells via miR-16-5p

Pregnancy Hypertens. 2021 Mar;23:174-184. doi: 10.1016/j.preghy.2020.12.003. (IF 2.095)

69. Ke Wu, Xinyi Zheng, Zhixian Yao, Zhong Zheng, Wenjie Huang, Xingyu Mu, Feng Sun, Zhihong Liu, Junhua Zheng

Accumulation of CD45RO+CD8+ T cells is a diagnostic and prognostic biomarker for clear cell renal cell carcinoma

Aging (Albany NY). 2021 May 19;13(10):14304-14321. doi: 10.18632/aging.203045.

70. Song Ren, Longfei Pan, Linqing Yang, Zequn Niu, Liming Wang, Hui Feng, Miao Yuan

miR-29a-3p transferred by mesenchymal stem cells-derived extracellular vesicles protects against myocardial injury after severe acute pancreatitis

Life Sci. 2021 May 1;272:119189. doi: 10.1016/j.lfs.2021.119189. (IF 3.647)

71. Ming Deng, Ping Xie, Zhonghui Chen, Yan Zhou, Junqi Liu, Jianghua Ming, Jianwei Yang

Mash-1 modified neural stem cells transplantation promotes neural stem cells differentiation into neurons to further improve locomotor functional recovery in spinal cord injury rats

Gene. 2021 May 20;781:145528. doi: 10.1016/j.gene.2021.145528. (IF 2.984)

72. Feifei Shao, Lingmin Zhou, Yu Zhang, Hongping Chen, Yu Zhang, Zhihui Guan

Gastrodin alleviates inflammatory injury of cardiomyocytes in septic shock mice via inhibiting NLRP3 expression

In Vitro Cell Dev Biol Anim. 2021 May;57(5):571-581. doi: 10.1007/s11626-021-00593-3.

73. Zilong Yan, Jianhua Qu, Zhangfu Li, Jing Yi, Yanze Su, Qirui Lin, Guangyin Yu, Zewei Lin, Weihua Yin, Fengmin Lu, Jikui Liu

NEK7 Promotes Pancreatic Cancer Progression And Its Expression Is Correlated With Poor Prognosis

Front Oncol. 2021 Jul 6;11:705797. doi: 10.3389/fonc.2021.705797. (IF 4.848)

74. Yue Liu, You-Ping Li, Li-Min Xiao, Li-Ke Chen, Su-Yue Zheng, Er-Ming Zeng, Chun-Hua Xu

Extracellular vesicles derived from M2 microglia reduce ischemic brain injury through microRNA-135a-5p/TXNIP/NLRP3 axis

Lab Invest. 2021 Jul;101(7):837-850. doi: 10.1038/s41374-021-00545-1. (IF 4.197)

75. Guan-Yin Zhu, Ya-Hui Liu, Wei Liu, Xin-Qi Huang, Bo Zhang, Zi-Li Zheng, Xin Wei, Jia-Zhuang Xu, Zhi-He Zhao

Surface Epitaxial Nano-Topography Facilitates Biomineralization to Promote Osteogenic Differentiation and Osteogenesis

ACS Omega. 2021 Aug 13;6(33):21792-21800. doi: 10.1021/acsomega.1c03462. (IF 2.87)

76. Jun Zhang, Haiyan Wang, Xizhi Sun

Sevoflurane Postconditioning Reduces Hypoxia/Reoxygenation Injury in Cardiomyocytes via Upregulation of Heat Shock Protein 70

J Microbiol Biotechnol. 2021 Aug 28;31(8):1069-1078. doi: 10.4014/jmb.2103.03040.

77. Zhan Wang, Rui Chen, Zheming Xu, Wei Ru, Hongjuan Tian, Fan Yang, Chang Tao

MiR-155-5p promotes renal interstitial fibrosis in obstructive nephropathy via inhibiting SIRT1 signaling pathway

J Recept Signal Transduct Res. 2021 Oct;41(5):466-475. doi: 10.1080/10799893.2020.1825491.

78. Guang-Cheng Luo, Lin Chen, Jiang Fang, Zhi-Jian Yan

Hsa_circ_0030586 promotes epithelial-mesenchymal transition in prostate cancer via PI3K-AKT signaling

Bioengineered. 2021 Dec;12(2):11089-11107. doi: 10.1080/21655979.2021.2008217. (IF 2.205)

79. Kejun Zhou, Mengyi Xie, Shuli Yi, Yun Tang, Haojun Luo, Qiong Xiao, Jun Xiao, Yi Li

Dimethyl fumarate ameliorates endotoxin-induced acute kidney injury against macrophage oxidative stress

Ren Fail. 2021 Dec;43(1):1229-1239. doi: 10.1080/0886022X.2021.1963774.

80. Xiaowei Song, Yiliang Wang, Feng Li, Wenyan Cao, Qiongzhen Zeng, Shurong Qin, Zhaoyang Wang, Jiaoyan Jia, Ji Xiao, Xiao Hu, Kaisheng Liu, Yifei Wang, Zhe Ren

Hsp90 Inhibitors Inhibit the Entry of Herpes Simplex Virus 1 Into Neuron Cells by Regulating Cofilin-Mediated F-Actin Reorganization

Front Microbiol. 2022 Jan 10;12:799890. doi: 10.3389/fmicb.2021.799890. (IF 4.235)