ER-Tracker Red (内质网红色荧光探针)(C1041M)

ER-Tracker Red (内质网红色荧光探针)

产品编号: C1041M

产品包装:100μl
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100μl 500μl 20μl

说明书下载

3598.00 10

价格: ¥ 3598.00

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产品编号 产品名称 产品包装 产品价格
C1041M ER-Tracker Red (内质网红色荧光探针) 100μl 3598.00元
C1041L ER-Tracker Red (内质网红色荧光探针) 500μl 9998.00元
C1041 ER-Tracker Red (内质网红色荧光探针) 20μl 1303.00元

ER-Tracker Red是一种具有细胞膜通透性的内质网(endoplasmic reticulum, ER)红色荧光探针,对内质网有高度选择性,可以用于活细胞内质网特异性荧光染色。
ER-Tracker Red为采用Molecular Probes公司的BODIPY TR进行了荧光标记的glibenclamide。Glibenclamide即glyburide,中文名为格列苯脲,是一种2型糖尿病治疗药物,可以结合主要定位在内质网上的包含ATP敏感的钾离子通道(KATP channel)的磺脲类(sulphonylurea)受体。因此荧光标记的glibenclamide就可以用作内质网特异性的荧光探针。ER-Tracker Red适用于活细胞内质网的荧光染色,但不适合用于固定细胞内质网的荧光染色。
ER-Tracker Red的分子式为C44H42BClF2N6O7S2,分子量为915.23,ER-Tracker Red的化学结构式参考图1。
ER-Tracker Red (内质网红色荧光探针)(C1041M) 图1.ER-Tracker Red的化学结构式。 ER-Tracker Red对于细胞的毒性极低。而传统的DiOC6(3)对ER染色的同时也对细胞有一定的毒性。
ER-Tracker Red呈红色荧光,检测时的最大激发波长为587nm,最大发射波长为615nm。ER-Tracker Red的激发光谱和发射光谱参考图2。
ER-Tracker Red (内质网红色荧光探针)(C1041M) 图2.ER-Tracker Red的激发光谱和发射光谱。 ER-Tracker Red按照后附的使用说明染色后,用甲醛等固定后染色效果可以被部分保留。ER-Tracker Red在活细胞中的染色效果参考图2。
ER-Tracker Red (内质网红色荧光探针)(C1041M) 图3.ER-Tracker Red(内质网红色荧光探针)对于NRK-52E细胞(大鼠肾小管上皮细胞)的染色效果。Mito-Tracker Green染色的NRK-52E细胞其线粒体呈现绿色荧光(图B),ER-Tracker Red染色的NRK-52E细胞其内质网呈现红色荧光(图C),绿色荧光、红色荧光及细胞核蓝色荧光的叠加(merge)效果见图D。其中细胞核使用Hoechst 33342 (C1027)染色。本图仅作参考,实际检测效果会因实验条件、检测仪器等的不同而存在差异。
提供了ER-Tracker Red 稀释液,使ER-Tracker Red的使用更加便捷。
按照1:1000的比例稀释,每10µl可以配制10ml ER-Tracker Red工作液;按照1:3000的比例稀释,每10µl可以配制30ml ER-Tracker Red工作液。
包装清单:

产品编号 产品名称 包装
C1041S-1 ER-Tracker Red (1mM) 20µl
C1041S-2 ER-Tracker Red稀释液 60ml
说明书 1份

产品编号 产品名称 包装
C1041M-1 ER-Tracker Red (1mM) 100µl
C1041M-2 ER-Tracker Red稀释液 250ml
说明书 1份

产品编号 产品名称 包装
C1041L-1 ER-Tracker Red (1mM) 500µl
C1041L-2 ER-Tracker Red稀释液 500ml×2
说明书 1份

保存条件:
-20℃保存,半年有效。ER-Tracker Red需-20℃避光保存。
注意事项:
ER-Tracker Red(1mM)在4℃、冰浴等较低温度情况下会凝固而粘在离心管管底、管壁或管盖内,可以20-25℃水浴温育片刻至全部融解后使用。对于微量的液体,每次使用前先离心数秒钟,使液体充分沉降到管底。
荧光染料均存在淬灭问题,请尽量注意避光,以减缓荧光淬灭。
需自备盖玻片和载玻片(可以向碧云天订购)。
格列本脲的药理学活性可能会影响内质网的一些功能;某些特殊细胞中磺脲类受体的可变表达可能会导致非内质网特异性染色。
ER-Tracker Red适用于活细胞内质网的荧光染色,但不适合用于固定细胞内质网的荧光染色。如果经ER-Tracker Red染色后的细胞需要进行固定操作,使用4%多聚甲醛在37℃固定2分钟。
ER-Tracker Red染色后的细胞不能用Triton X-100通透,Triton X-100通透处理会导致ER-Tracker Red的荧光染色消失。
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.ER-Tracker Red工作液的配制:
a.取少量ER-Tracker Red按照1:1000的比例加入到ER-Tracker Red 稀释液中。例如取1μl ER-Tracker Red加入到1ml ER-Tracker Red 稀释液中。混匀后即为ER-Tracker Red工作液。
b.ER-Tracker Red工作液使用前需37℃预温育。
注:工作液中ER-Tracker Red的浓度可以根据实际情况进行适当调整,推荐的稀释比例调整范围为1:1000-1:3000。为降低背景,在染色效果可以接受的范围内,建议尽量使用较低浓度的ER-Tracker Red。
2.内质网的荧光标记:
a.去除细胞培养液,用适量的溶液如HBSS with Ca2+ & Mg2+ (Hanks’ Balanced Salt Solution with Ca2+ & Mg2+)洗涤生长在盖玻片上的细胞。注:HBSS with Ca2+ & Mg2+ (C0219)可以向碧云天订购;对于悬浮细胞的染色可以参考贴壁细胞的染色方法进行。
b.去除洗涤液,加入步骤1配制好的并37℃预温育的ER-Tracker Red染色工作液,与细胞37℃共孵育15-30分钟。
c.去除ER-Tracker Red染色工作液,用细胞培养液洗涤细胞1-2次。
d.随后通常用荧光显微镜或激光共聚焦显微镜进行观察。此时可观察到内质网呈明亮的强荧光染色。
e.如果经ER-Tracker Red染色后的细胞需要进行固定,可以使用4%甲醛37℃固定2分钟。固定后用适当的洗涤液洗涤2-3次,每次5分钟,随后可以进行复染或滴加适当的抗荧光淬灭封片液,最后封片观察。注意:ER-Tracker Red染色的细胞不能用Triton X-100通透,Triton X-100通透处理会导致ER-Tracker Red的荧光染色消失。

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ER-Tracker Red (内质网红色荧光探针)(C1041M)
ER-Tracker Red (内质网红色荧光探针)(C1041M)

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Cell Death Dis. 2020 Sep 16;11(9):764.;doi: 10.1038/s41419-020-02930-y. (IF 6.304)

49. Fan Xiao,Meixin Gao,Junru Yang,Lingling He,Hongshan Wei
FAM172A Deletion May Enhance Hepatic Steatosis by Promoting ER Stress
DIGEST DIS SCI. 2020 Sep 18.;doi: 10.1007/s10620-020-06601-y. (IF 2.751)

50. Xiuge Gao,Xiangchun Ruan,Hui Ji,Lin Peng,Yawei Qiu,Dan Yang,Xinhao Song,Chunlei Ji,Dawei Guo,Shanxiang Jiang
Maduramicin triggers methuosis-like cell death in primary chicken myocardial cells
Toxicol Lett. 2020 Oct 15;333:105-114.;doi: 10.1016/j.toxlet.2020.07.025. (IF 3.569)

51. Yongnan Li,Shuodong Wu
Curcumin inhibits the proteolytic process of SREBP-2 by first inhibiting the expression of S1P rather than directly inhibiting SREBP-2 expression
Food Sci Nutr. 2020 Nov 8;9(1):209-216.;doi: 10.1002/fsn3.1985. (IF 1.797)

52. Yajun Lu,Yuxiao Yang,Siqi Yang,Qianfeng Xia
Immunomodulatory action of excretory-secretory products of Angiostrongylus cantonensis in a mouse tumour model
Parasitol Res. 2020 Nov;119(11):3705-3718.;doi: 10.1007/s00436-020-06872-4. (IF 1.641)

53. Yaxian Zheng,Liyun Xing,Liqiang Chen,Rui Zhou,Jiawei Wu,Xi Zhu,Lian Li,Yucheng Xiang,Ruinan Wu,Ling Zhang,Yuan Huang
Tailored elasticity combined with biomimetic surface promotes nanoparticle transcytosis to overcome mucosal epithelial barrier
Biomaterials. 2020 Dec;262:120323.;doi: 10.1016/j.biomaterials.2020.120323. (IF 10.317)

54. Xiaoyu Wang,Yu Zhuang,Yukun Fang,Huabin Cao,Caiying Zhang,Chenghong Xing,Xiaoquan Guo,Guyue Li,Ping Liu,Guoliang Hu,Fan Yang
Endoplasmic reticulum stress aggravates copper-induced apoptosis via the PERK/ATF4/CHOP signaling pathway in duck renal tubular epithelial cells
Environ Pollut. 2021 Mar 1;272:115981.;doi: 10.1016/j.envpol.2020.115981. (IF 6.792)

55. Xueling Su,Xi Yan,Xing Chen,Mei Guo,Yuxian Xia,Yueqing Cao
Calcofluor white hypersensitive proteins contribute to stress tolerance and pathogenicity in entomopathogenic fungus, Metarhizium acridum
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ER-Tracker Green (内质网绿色荧光探针)(C1042L)

ER-Tracker Green (内质网绿色荧光探针)

产品编号: C1042L

产品包装:500μl
选择包装

100μl 500μl 20μl

说明书下载

9998.00 10

价格: ¥ 9998.00

产品简介
使用说明
产品文件
相关产品
相关论文
产品问答
产品编号 产品名称 产品包装 产品价格
C1042M ER-Tracker Green (内质网绿色荧光探针) 100μl 3598.00元
C1042L ER-Tracker Green (内质网绿色荧光探针) 500μl 9998.00元
C1042S ER-Tracker Green (内质网绿色荧光探针) 20μl 1303.00元

ER-Tracker Green是一种具有细胞膜通透性的内质网(endoplasmic reticulum, ER)绿色荧光探针,对内质网具有高度选择性,可以用于活细胞内质网特异性荧光染色。

ER-Tracker Green为采用Molecular Probes公司的BODIPY® FL进行了荧光标记的glibenclamide。Glibenclamide即glyburide,中文名称为格列本脲,是一种常用2型糖尿病的治疗药物,可以高度结合主要定位在内质网上的包含ATP敏感的钾离子通道(KATP channel)的磺脲类(sulphonylurea)受体。因此荧光标记的glibenclamide就可以用作内质网特异性的荧光探针。ER-Tracker Green适用于活细胞内质网的荧光染色,但不适合用于固定细胞内质网的荧光染色。使用本产品染色活细胞内质网的效果参考图1。

ER-Tracker Green (内质网绿色荧光探针)(C1042L)

图1.ER-Tracker Green (内质网绿色荧光探针)对于NRK-52E细胞(大鼠肾小管上皮细胞)的染色效果。ER-Tracker Green染色的NRK-52E细胞其内质网呈现绿色荧光(图B),Mito-Tracker Red CMXRos (C1049B)染色的NRK-52E细胞其线粒体呈现红色荧光(图C),绿色荧光、红色荧光及细胞核蓝色荧光的叠加(merge)效果见图D。其中细胞核使用Hoechst 33342 (C1027)染色。本图仅作参考,实际检测效果会因实验条件、检测仪器等的不同而存在差异。

ER-Tracker Green的分子式为C37H42BClF2N6O6S,分子量为783.1。ER-Tracker Green呈绿色荧光,检测时最大激发光波长为504nm,最大发射光波长为511nm。ER-Tracker Green的化学结构式和激发、发射光谱图参考图2。

ER-Tracker Green (内质网绿色荧光探针)(C1042L)
图2.ER-Tracker Green的化学结构式(A)和激发、发射光谱图(B)。

ER-Tracker Green对于细胞的毒性极低,而传统的DiOC6(3)对ER染色的同时也对细胞有一定的毒性。

本产品包装中提供了ER-Tracker Green稀释液,使ER-Tracker Green的使用更加便捷。

按照1:1000的比例稀释,每10µl可以配制10ml ER-Tracker Green工作液;按照1:3000的比例进行稀释,每10µl可以配制30ml ER-Tracker Green工作液。

包装清单:

产品编号 产品名称 包装
C1042S-1 ER-Tracker Green (1mM) 20µl
C1042S-2 ER-Tracker Green稀释液 60ml
说明书 1份

产品编号 产品名称 包装
C1042M-1 ER-Tracker Green (1mM) 100µl
C1042M-2 ER-Tracker Green稀释液 250ml
说明书 1份

产品编号 产品名称 包装
C1042L-1 ER-Tracker Green (1mM) 500µl
C1042L-2 ER-Tracker Green稀释液 500ml×2
说明书 1份
保存条件:

-20℃保存,半年有效。ER-Tracker Green需-20℃避光保存。

注意事项:

ER-Tracker Green (1mM)在4℃、冰浴等较低温度情况下会凝固而粘在离心管管底、管壁或管盖内,可以20-25℃水浴温育片刻至全部融解后使用。对于微量的液体,每次使用前先离心数秒钟,使液体充分沉降到管底。

荧光染料均存在淬灭问题,请尽量注意避光,以减缓荧光淬灭。

格列本脲的药理学活性可能会影响内质网的一些功能;某些特殊细胞中磺脲类受体的可变表达可能会导致非内质网特异性染色。

ER-Tracker Green适用于活细胞内质网的荧光染色,但不适合用于固定细胞内质网的荧光染色。如果经ER-Tracker Green染色后的细胞需要进行固定操作,使用4%多聚甲醛在37℃固定2分钟。

ER-Tracker Green染色后的细胞不能用Triton X-100通透,Triton X-100通透处理会导致ER-Tracker Green的荧光染色消失。

需自备盖玻片和载玻片(可以向碧云天订购)。

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.ER-Tracker Green工作液的配制:
a.取少量ER-Tracker Green按照1:1000的比例加入到ER-Tracker Green稀释液中。例如取1µl ER-Tracker Green加入到1ml ER-Tracker Green稀释液中。混匀后即为ER-Tracker Green工作液。
b.ER-Tracker Green工作液使用前需37℃预温育。
注:工作液中ER-Tracker Green的浓度可以根据实际情况进行适当调整,推荐的稀释比例调整范围为1:1000-1:3000。为降低背景,在染色效果可以接受的范围内,建议尽量使用较低浓度的ER-Tracker Green。
2.内质网的荧光标记:
a.去除细胞培养液,用适量的溶液如HBSS with Ca2+ & Mg2+ (Hanks’ Balanced Salt Solution with Ca2+ & Mg2+)洗涤生长在盖玻片上的细胞。注:HBSS with Ca2+ & Mg2+ (C0219)可以向碧云天订购;对于悬浮细胞的染色可以参考贴壁细胞的染色方法进行。
b.去除洗涤液,加入步骤1配制好的并37℃预温育的ER-Tracker Green染色工作液,与细胞37℃共孵育15-30分钟。
c.去除ER-Tracker Green染色工作液,用细胞培养液洗涤细胞1-2次。
d.随后通常用荧光显微镜或激光共聚焦显微镜进行观察。此时可观察到内质网呈明亮的强荧光染色。
e.如果经ER-Tracker Green染色后的细胞需要进行固定,可以使用4%甲醛37℃固定2分钟。固定后用适当的洗涤液洗涤2-3次,每次5分钟,随后可以进行复染或滴加适当的抗荧光淬灭封片液,最后封片观察。注意:ER-Tracker Green染色的细胞不能用Triton X-100通透,Triton X-100通透处理会导致ER-Tracker Green的荧光染色消失。
相关产品:
产品编号 产品名称 包装
C1002 DAPI 5mg/ml×0.2ml
C1005/C1006 DAPI染色液 10ml/50ml
C1011 Hoechst 33258 10mg
C1017/C1018 Hoechst 33258染色液 10ml/50ml
C1022 Hoechst 33342 10mg
C1025/C1026 Hoechst 33342染色液 10ml/50ml
C1027/C1028/C1029 Hoechst 33342活细胞染色液(100X) 0.1ml/0.5ml/3ml
C1033 Actin-Tracker Green (微丝绿色荧光探针) 0.2ml
C1036 DiI (细胞膜红色荧光探针) 10mg
C1038 DiO (细胞膜绿色荧光探针) 10mg
C1039-10mg DiD (细胞膜远红外荧光探针) 10mg
C1041S/M/L ER-Tracker Red (内质网红色荧光探针) 20μl/100μl/500μl
C1042S/M/L ER-Tracker Green (内质网绿色荧光探针) 20μl/100μl/500μl
C1043 Golgi-Tracker Red (高尔基体红色荧光探针) 1mg
C1045S Golgi-Tracker Green (高尔基体绿色荧光探针) 1mg
C1046 Lyso-Tracker Red (溶酶体红色荧光探针) 50μl
C1047S Lyso-Tracker Green (溶酶体绿色荧光探针) 50μl
C1048 Mito-Tracker Green (线粒体绿色荧光探针) 50μg
C1049B-50μg Mito-Tracker Red CMXRos (线粒体红色荧光探针) 50μg
C1049B-250μg Mito-Tracker Red CMXRos (线粒体红色荧光探针) 50μg×5
C1050 Tubulin-Tracker Red (抗体法微管红色荧光探针) 40μl
C1051S Tubulin-Tracker Green (抗体法微管绿色荧光探针) 40μl
C1991S 细胞膜红色荧光染色试剂盒(DiI) 200-1000次
C1993S 细胞膜绿色荧光染色试剂盒(DiO) 200-1000次
C1995S 细胞膜远红外荧光染色试剂盒(DiD) 200-1000次
C2005 JC-1 1mg
C2007 Rhodamine 123 5mg

ER-Tracker Green (内质网绿色荧光探针)(C1042L)
ER-Tracker Green (内质网绿色荧光探针)(C1042L)

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ER-Tracker Green (内质网绿色荧光探针)(C1042L)
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ER-Tracker Red (内质网红色荧光探针)(C1041L)

ER-Tracker Red (内质网红色荧光探针)

产品编号: C1041L

产品包装:500μl
选择包装

100μl 500μl 20μl

说明书下载

9998.00 10

价格: ¥ 9998.00

产品简介
使用说明
产品文件
相关产品
相关论文
产品问答
产品编号 产品名称 产品包装 产品价格
C1041M ER-Tracker Red (内质网红色荧光探针) 100μl 3598.00元
C1041L ER-Tracker Red (内质网红色荧光探针) 500μl 9998.00元
C1041 ER-Tracker Red (内质网红色荧光探针) 20μl 1303.00元

ER-Tracker Red是一种具有细胞膜通透性的内质网(endoplasmic reticulum, ER)红色荧光探针,对内质网有高度选择性,可以用于活细胞内质网特异性荧光染色。
ER-Tracker Red为采用Molecular Probes公司的BODIPY TR进行了荧光标记的glibenclamide。Glibenclamide即glyburide,中文名为格列苯脲,是一种2型糖尿病治疗药物,可以结合主要定位在内质网上的包含ATP敏感的钾离子通道(KATP channel)的磺脲类(sulphonylurea)受体。因此荧光标记的glibenclamide就可以用作内质网特异性的荧光探针。ER-Tracker Red适用于活细胞内质网的荧光染色,但不适合用于固定细胞内质网的荧光染色。
ER-Tracker Red的分子式为C44H42BClF2N6O7S2,分子量为915.23,ER-Tracker Red的化学结构式参考图1。
ER-Tracker Red (内质网红色荧光探针)(C1041L) 图1.ER-Tracker Red的化学结构式。 ER-Tracker Red对于细胞的毒性极低。而传统的DiOC6(3)对ER染色的同时也对细胞有一定的毒性。
ER-Tracker Red呈红色荧光,检测时的最大激发波长为587nm,最大发射波长为615nm。ER-Tracker Red的激发光谱和发射光谱参考图2。
ER-Tracker Red (内质网红色荧光探针)(C1041L) 图2.ER-Tracker Red的激发光谱和发射光谱。 ER-Tracker Red按照后附的使用说明染色后,用甲醛等固定后染色效果可以被部分保留。ER-Tracker Red在活细胞中的染色效果参考图2。
ER-Tracker Red (内质网红色荧光探针)(C1041L) 图3.ER-Tracker Red(内质网红色荧光探针)对于NRK-52E细胞(大鼠肾小管上皮细胞)的染色效果。Mito-Tracker Green染色的NRK-52E细胞其线粒体呈现绿色荧光(图B),ER-Tracker Red染色的NRK-52E细胞其内质网呈现红色荧光(图C),绿色荧光、红色荧光及细胞核蓝色荧光的叠加(merge)效果见图D。其中细胞核使用Hoechst 33342 (C1027)染色。本图仅作参考,实际检测效果会因实验条件、检测仪器等的不同而存在差异。
提供了ER-Tracker Red 稀释液,使ER-Tracker Red的使用更加便捷。
按照1:1000的比例稀释,每10µl可以配制10ml ER-Tracker Red工作液;按照1:3000的比例稀释,每10µl可以配制30ml ER-Tracker Red工作液。
包装清单:

产品编号 产品名称 包装
C1041S-1 ER-Tracker Red (1mM) 20µl
C1041S-2 ER-Tracker Red稀释液 60ml
说明书 1份

产品编号 产品名称 包装
C1041M-1 ER-Tracker Red (1mM) 100µl
C1041M-2 ER-Tracker Red稀释液 250ml
说明书 1份

产品编号 产品名称 包装
C1041L-1 ER-Tracker Red (1mM) 500µl
C1041L-2 ER-Tracker Red稀释液 500ml×2
说明书 1份

保存条件:
-20℃保存,半年有效。ER-Tracker Red需-20℃避光保存。
注意事项:
ER-Tracker Red(1mM)在4℃、冰浴等较低温度情况下会凝固而粘在离心管管底、管壁或管盖内,可以20-25℃水浴温育片刻至全部融解后使用。对于微量的液体,每次使用前先离心数秒钟,使液体充分沉降到管底。
荧光染料均存在淬灭问题,请尽量注意避光,以减缓荧光淬灭。
需自备盖玻片和载玻片(可以向碧云天订购)。
格列本脲的药理学活性可能会影响内质网的一些功能;某些特殊细胞中磺脲类受体的可变表达可能会导致非内质网特异性染色。
ER-Tracker Red适用于活细胞内质网的荧光染色,但不适合用于固定细胞内质网的荧光染色。如果经ER-Tracker Red染色后的细胞需要进行固定操作,使用4%多聚甲醛在37℃固定2分钟。
ER-Tracker Red染色后的细胞不能用Triton X-100通透,Triton X-100通透处理会导致ER-Tracker Red的荧光染色消失。
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.ER-Tracker Red工作液的配制:
a.取少量ER-Tracker Red按照1:1000的比例加入到ER-Tracker Red 稀释液中。例如取1μl ER-Tracker Red加入到1ml ER-Tracker Red 稀释液中。混匀后即为ER-Tracker Red工作液。
b.ER-Tracker Red工作液使用前需37℃预温育。
注:工作液中ER-Tracker Red的浓度可以根据实际情况进行适当调整,推荐的稀释比例调整范围为1:1000-1:3000。为降低背景,在染色效果可以接受的范围内,建议尽量使用较低浓度的ER-Tracker Red。
2.内质网的荧光标记:
a.去除细胞培养液,用适量的溶液如HBSS with Ca2+ & Mg2+ (Hanks’ Balanced Salt Solution with Ca2+ & Mg2+)洗涤生长在盖玻片上的细胞。注:HBSS with Ca2+ & Mg2+ (C0219)可以向碧云天订购;对于悬浮细胞的染色可以参考贴壁细胞的染色方法进行。
b.去除洗涤液,加入步骤1配制好的并37℃预温育的ER-Tracker Red染色工作液,与细胞37℃共孵育15-30分钟。
c.去除ER-Tracker Red染色工作液,用细胞培养液洗涤细胞1-2次。
d.随后通常用荧光显微镜或激光共聚焦显微镜进行观察。此时可观察到内质网呈明亮的强荧光染色。
e.如果经ER-Tracker Red染色后的细胞需要进行固定,可以使用4%甲醛37℃固定2分钟。固定后用适当的洗涤液洗涤2-3次,每次5分钟,随后可以进行复染或滴加适当的抗荧光淬灭封片液,最后封片观察。注意:ER-Tracker Red染色的细胞不能用Triton X-100通透,Triton X-100通透处理会导致ER-Tracker Red的荧光染色消失。

相关产品:

产品编号 产品名称 包装
C1002 DAPI 5mg/ml×0.2ml
C1005/C1006 DAPI染色液 10ml/50ml
C1011 Hoechst 33258 10mg
C1017/C1018 Hoechst 33258染色液 10ml/50ml
C1022 Hoechst 33342 10mg
C1025/C1026 Hoechst 33342染色液 10ml/50ml
C1027/C1028/C1029 Hoechst 33342活细胞染色液(100X) 0.1ml/0.5ml/3ml
C1033 Actin-Tracker Green (微丝绿色荧光探针) 0.2ml
C1036 DiI (细胞膜红色荧光探针) 10mg
C1038 DiO (细胞膜绿色荧光探针) 10mg
C1039-10mg DiD (细胞膜远红外荧光探针) 10mg
C1041S/M/L ER-Tracker Red (内质网红色荧光探针) 20μl/100μl/500μl
C1042S/M/L ER-Tracker Green (内质网绿色荧光探针) 20μl/100μl/500μl
C1043 Golgi-Tracker Red (高尔基体红色荧光探针) 1mg
C1045S Golgi-Tracker Green (高尔基体绿色荧光探针) 1mg
C1046 Lyso-Tracker Red (溶酶体红色荧光探针) 50μl
C1047S Lyso-Tracker Green (溶酶体绿色荧光探针) 50μl
C1048 Mito-Tracker Green (线粒体绿色荧光探针) 50μg
C1049B-50μg Mito-Tracker Red CMXRos (线粒体红色荧光探针) 50μg
C1049B-250μg Mito-Tracker Red CMXRos (线粒体红色荧光探针) 50μg×5
C1050 Tubulin-Tracker Red (抗体法微管红色荧光探针) 40μl
C1051S Tubulin-Tracker Green (抗体法微管绿色荧光探针) 40μl
C1991S 细胞膜红色荧光染色试剂盒(DiI) 200-1000次
C1993S 细胞膜绿色荧光染色试剂盒(DiO) 200-1000次
C1995S 细胞膜远红外荧光染色试剂盒(DiD) 200-1000次
C2005 JC-1 1mg
C2007 Rhodamine 123 5mg

ER-Tracker Red (内质网红色荧光探针)(C1041L)
ER-Tracker Red (内质网红色荧光探针)(C1041L)

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使用本产品的文献:

1. Zhang S, Wu W, Wu Y, Zheng J, Suo T, Tang H, Tang J.
RNF152, a novel lysosome localized E3 ligase with pro-apoptotic activities.
Protein Cell . 2010 Jul;1(7):656-63. (IF 10.164)

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Intracellular distribution and mechanisms of actions of photosensitizer Zinc(II)-phthalocyanine solubilized in Cremophor EL against human hepatocellular carcinoma HepG2 cells.
Cancer Lett .2013 Mar 1;330(1):49-56. (IF 7.36)

3. Wu S, Wang F, Huang J, Fang Q, Shen Z, Ye G.
Molecular and cellular analyses of a ryanodine receptor from hemocytes of Pieris rapae.
Dev Comp Immunol . 2013 Sep;41(1):1-10. (IF 3.192)

4. Wu L, Yang X, Duan X, Cui L, Li G.
Exogenous expression of marine lectins DlFBL and SpRBL induces cancer cell apoptosis possibly through PRMT5-E2F-1 pathway.
SCI REP-UK . 2014 Mar 28;4:4505. (IF 3.998)

5. Pan C, Hu YF, Yi HS, Song J, Wang L, Pan MH, Lu C.
Role of Bmbuffy in hydroxycamptothecine-induced apoptosis in BmN-SWU1 cells of the silkworm, Bombyx mori.
BIOCHEM BIOPH RES CO . 2014 May 2;447(2):237-43. (IF 2.985)

6. Yang X, Wu L, Duan X, Cui L, Luo J, Li G.
Adenovirus carrying gene encoding Haliotis discus discus sialic acid binding lectin induces cancer cell apoptosis.
Mar Drugs . 2014 Jun 30;12(7):3994-4004. (IF 4.073)

7. Qin C, He B, Dai W, Lin Z, Zhang H, Wang X, Wang J, Zhang X, Wang G, Yin L, Zhang Q.
The impact of a chlorotoxin-modified liposome system on receptor MMP-2 and the receptor-associated protein ClC-3.
Biomaterials . 2014 Jul;35(22):5908-20. (IF 10.317)

8. Zhang BC, Zhang J, Xiao ZZ, Sun L.
Rock bream (Oplegnathus fasciatus) viperin is a virus-responsive protein that modulates innate immunity and promotes resistance against megalocytivirus infection.
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9. Zhang Y, Zhou L, Zou J, Wang M, Qi J, Qi Z.
Palmitoylation of STREX domain confers cerebroside sensitivity to the BKCa channel.
BBA-BIOMEMBRANES . 2014 Oct;1838(10):2451-9. (IF 3.411)

10. Ao D, Guo HC, Sun SQ, Sun DH, Fung TS, Wei YQ, Han SC, Yao XP, Cao SZ, Liu DX, Liu XT.
Viroporin Activity of the Foot-and-Mouth Disease Virus Non-Structural 2B Protein.
PLoS One . 2015 May 6;10(5):e0125828. (IF 2.74)

11. Lu J, Cao Y, Cheng K, Xu B, Wang T, Yang Q, Yang Q, Feng X, Xia Q.
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13. Ma R, Zhang J, Liu X, Li L, Liu H, Rui R, Gu L, Wang Q.
Involvement of Rab6a in organelle rearrangement and cytoskeletal organization during mouse oocytematuration.
SCI REP-UK . 2016 Mar 31;6:23560. (IF 3.998)

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The transport mechanism of integrin αvβ3 receptor targeting nanoparticles in Caco-2 cells.
INT J PHARMACOL . 2016 Mar 16;500(1-2):42-53. (IF 0.692)

15. Li G, Gao Y, Cui L, Wu L, Yang X, Chen J.
Anguilla japonica lectin 1 delivery through adenovirus vector induces apoptotic cancer cell deaththrough interaction with PRMT5.
J Gene Med . 2016 Apr;18(4-6):65-74. (IF 3.258)

16. Zhang ZZ, Yuan K, Yue HT, Yuan FH, Bi HT, Weng SP, He JG, Chen YH.
Identification and functional characterization of an endoplasmic reticulum oxidoreductin 1-α gene inLitopenaeus vannamei.
Dev Comp Immunol . 2016 Apr;57:10-9. (IF 3.192)

17. Bi HT, Yuan FH, Yuan K, Weng SP, He JG, Chen YH.
Identification and functional characterization of a glucose regulated protein 94 gene in Litopenaeusvannamei and its responsiveness in WSSV infection.
Mol Immunol . 2016 May;73:29-36. (IF 3.641)

18. Chen X, Zhang X, Wang HY, Chen Z, Wu FG.
Subcellular Fate of a Fluorescent Cholesterol-Poly(ethylene glycol) Conjugate: An Excellent PlasmaMembrane Imaging Reagent.
Langmuir . 2016 Oct 4;32(39):10126-10135. (IF 3.557)

19. Sun W, Li L, Yang QQ, Zhang ZR, Huang Y.
Two birds, one stone: dual targeting of the cancer cell surface and subcellular mitochondria by thegalectin-3-binding peptide G3-C12.
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20. Wang H, Niu H, Zhai Y, Lu M.
Characterization of BiP Genes from Pepper (Capsicum annuum L.)andthe Role of CaBiP1 in Response to Endoplasmic Reticulum and Multiple Abiotic Stresses.
Front Plant Sci . 2017 Jun 28;8:1122. (IF 4.402)

21. Dong W,Lv H,Guo K,Wang T,Ouyang Y,Jin M,Zhang Y
Classical Swine Fever Virus Infection and Its NS4A Protein Expression Induce IL-8 Production through MAVS Signaling Pathway in Swine Umbilical Vein Endothelial Cells.
Front Microbiol . 2018 Jan 12;8:2687. (IF 4.235)

22. Zheng S,Huang C,Zhao X,Zhang Y,Liu S,Zhu Q
A hydrophobic organelle probe based on aggregation-induced emission: Nanosuspension preparation and direct use for endoplasmic reticulum imaging in living cells.
SPECTROCHIM ACTA A . 2018 Jan 15;189:231-238. (IF 3.232)

23. La X,Zhang L,Li H,Li Z,Song G,Yang P,Yang Y
Ajuba receptor mediates the internalization of tumor-secreted GRP78 into macrophages through different endocytosis pathways.
ONCOTARGET . 2018 Jan 9;9(21):15464-15479. (IF 5.168)

24. Wang B,Wen A,Feng C,Niu L,Xiao X,Luo L,Shen C,Zhu J,Lei J,Zhang X
The in vivo anti-fibrotic function of calcium sensitive receptor (CaSR) modulating poly(p-dioxanone-co-l-phenylalanine) prodrug.
Acta Biomater . 2018 Jun;73:180-189. (IF 7.242)

25. E S,Mao QX,Yuan XL,Kong XL,Chen XW,Wang JH
Targeted imaging of the lysosome and endoplasmic reticulum and their pH monitoring with surface regulated carbon dots.
Nanoscale . 2018 Jul 9;10(26):12788-12796. (IF 6.895)

26. Gong X,Sun R,Gao Z,Han W,Liu Y,Zhao L,Jing L,Yao X,Sun X
Tubeimoside 1 Acts as a Chemotherapeutic Synergist via Stimulating Macropinocytosis.
Front Pharmacol . 2018 Sep 26;9:1044. (IF 4.225)

27. Ling J,Ma Z,Liu L,Yin J,Su J,Shen F,Xie L,Hu S
Identification of a crucial tryptophan residue in ADAMTS13 required for its secretion and enzymatic activity.
CLIN EXP PHARMACOL P  . 2018 Nov;45(11):1181-1186. (IF 2.092)

28. Guo C,Ma R,Liu X,Xia Y,Niu P,Ma J,Zhou X,Li Y,Sun Z
Silica nanoparticles induced endothelial apoptosis via endoplasmic reticulum stress-mitochondrial apoptotic signaling pathway.
Chemosphere . 2018 Nov;210:183-192. (IF 5.778)

29. Xu A,Tang Y,Lin W
Endoplasmic reticulum-targeted two-photon turn-on fluorescent probe for nitroreductase in tumor cells and tissues.
SPECTROCHIM ACTA A . 2018 Nov 5;204:770-776. (IF 3.232)

30. Lian YY,He HH,Zhang CZ,Li XC,Chen YH
Functional characterization of a matrix metalloproteinase 2 gene in Litopenaeus vannamei.
FISH SHELLFISH IMMUN. 2019 Jan;84:404-413. (IF 3.298)

31. Li X,Du X,Ni J
Zn2+ Aggravates Tau Aggregation and Neurotoxicity.
Int J Mol Sci. 2019 Jan 23;20(3). pii: E487. (IF 4.556)

32. Yan JJ,Wang XY,Wang MZ,Pan DH,Yang RL,Xu YP,Wang LZ,Yang M
Self-Assembling Nonconjugated Poly(amide-imide) into Thermoresponsive Nanovesicles with Unexpected Red Fluorescence for Bioimaging.
Biomacromolecules. 2019 Mar 11;20(3):1455-1463. (IF 6.092)

33. Xu D,Wu L,Jiang X,Yang L,Cheng J,Chen H,Hua R,Geng G,Yang L,Li Q
SIRT2 Inhibition Results in Meiotic Arrest, Mitochondrial Dysfunction, and Disturbance of Redox Homeostasis during Bovine Oocyte Maturation.
Int J Mol Sci. 2019 Mar 18;20(6). pii: E1365. (IF 4.556)

34. Jiang YJ,Lin M,Yang T,Li RS,Huang CZ,Wang J,Li YF
Nitrogen and phosphorus doped polymer carbon dots as a sensitive cellular mapping probe of nitrite.
J Mater Chem B. 2019 Mar 28;7(12):2074-2080. (IF 5.344)

35. Bao XZ,Dai F,Wang Q,Jin XL,Zhou B
Developing glutathione-activated catechol-type diphenylpolyenes as small molecule-based and mitochondria-targeted prooxidative anticancer theranostic prodrugs.
FREE RADICAL BIO MED. 2019 Apr;134:406-418. (IF 6.17)

36. Chen P,Zhao M,Chen Q,Fan L,Gao F,Zhao L
Absorption Characteristics of Chitobiose and Chitopentaose in the Human Intestinal Cell Line Caco-2 and Everted Gut Sacs.
J AGR FOOD CHEM. 2019 Apr 24;67(16):4513-4523. (IF 4.192)

37. Tan X,Zhang Y,Wang Q,Ren T,Gou J,Guo W,Yin T,He H,Zhang Y,Tang X
Cell-penetrating peptide together with PEG-modified mesostructured silica nanoparticles promotes mucous permeation and oral delivery of therapeutic proteins and peptides.
BIOMATER SCI-UK. 2019 Jun 25;7(7):2934-2950. (IF 6.183)

38. Lu S,Zhang J,Lian X,Sun L,Meng K,Chen Y,Sun Z,Yin X,Li Y,Zhao J,Wang T,Zhang G,He QY
A hidden human proteome encoded by ‘non-coding’ genes.
Nucleic Acids Res. 2019 Sep 5;47(15):8111-8125. (IF 11.501)

39. Liang XD,Zhang YN,Liu CC,Chen J,Chen XN,Sattar Baloch A,Zhou B
U18666A inhibits classical swine fever virus replication through interference with intracellular cholesterol trafficking.
Vet Microbiol. 2019 Nov;238:108436. (IF 3.03)

40. Dong C,Tu W,He M,Fu J,Kobayashi A,Konishi T,Shao C
Role of Endoplasmic Reticulum and Mitochondrion in Proton Microbeam Radiation-Induced Bystander Effect.
Radiat Res. 2020 Jan;193(1):63-72. (IF 2.657)

41. Xia Q,Wang X,Liu Y,Shen Z,Ge Z,Huang H,Li X,Wang Y
An endoplasmic reticulum-targeted two-photon fluorescent probe for bioimaging of HClO generated during sleep deprivation.
SPECTROCHIM ACTA A. 2020 Mar 15;229:117992. (IF 3.232)

42. Zhaoyang Wang,Jiaoyan Jia,Lu Wang,Feng Li,Yiliang Wang,Yuzhou Jiang,Xiaowei Song,Shurong Qin,Kai Zheng,Ju Ye,Zhe Ren,Yifei Wang,Shuhua Qi
Anti-HSV-1 activity of Aspergillipeptide D, a cyclic pentapepetide isolated from fungus Aspergillus sp. SCSIO 41501
Virol J. 2020 Mar 19;17(1):41.;doi: 10.1186/s12985-020-01315-z. (IF 2.579)

43. Ru-Jia Xie,Xiao-Xia Hu,Lu Zheng,Shuang Cai,Yu-Si Chen,Yi Yang,Ting Yang,Bing Han,Qin Yang
Calpain-2 activity promotes aberrant endoplasmic reticulum stress-related apoptosis in hepatocytes
WORLD J GASTROENTERO. 2020 Apr 7;26(13):1450-1462.;doi: 10.3748/wjg.v26.i13.1450. (IF 3.665)

44. Ming-Hong Sun,Xiao-Han Li,Yao Xu,Yi Xu,Zhen-Nan Pan,Shao-Chen Sun
Citrinin exposure disrupts organelle distribution and functions in mouse oocytes
Environ Res. 2020 Jun;185:109476.;doi: 10.1016/j.envres.2020.109476. (IF 5.715)

45. Zhi-Fei Liu,Jian-Fei Ji,Xiao-Feng Jiang,Tong Shao,Dong-Dong Fan,Xin-Hang Jiang,Ai-Fu Lin,Li-Xin Xiang,Jian-Zhong Shao
Characterization of cGAS homologs in innate and adaptive mucosal immunities in zebrafish gives evolutionary insights into cGAS-STING pathway
FASEB J. 2020 Jun;34(6):7786-7809.;doi: 10.1096/fj.201902833R. (IF 4.966)

46. Zhen-Nan Pan,Meng-Hao Pan,Ming-Hong Sun,Xiao-Han Li,Yu Zhang,Shao-Chen Sun
RAB7 GTPase regulates actin dynamics for DRP1-mediated mitochondria function and spindle migration in mouse oocyte meiosis
FASEB J. 2020 Jul;34(7):9615-9627.;doi: 10.1096/fj.201903013R. (IF 4.966)

47. Zhiyong Xiong,Changfei Yuan,Jian Shi,Wei Xiong,Yu Huang,Wen Xiao,Hongmei Yang,Ke Chen,Xiaoping Zhang
Restoring the epigenetically silenced PCK2 suppresses renal cell carcinoma progression and increases sensitivity to sunitinib by promoting endoplasmic reticulum stress
Theranostics. 2020 Sep 15;10(25):11444-11461.;doi: 10.7150/thno.48469. (IF 8.579)

48. Wei Xin,Min Zhang,Yang Yu,Songlin Li,Cui Ma,Junting Zhang,Yuan Jiang,Yiying Li,Xiaodong Zheng,Lixin Zhang,Xijuan Zhao,Xuzhong Pei,Daling Zhu
BCAT1 binds the RNA-binding protein ZNF423 to activate autophagy via the IRE1-XBP-1-RIDD axis in hypoxic PASMCs
Cell Death Dis. 2020 Sep 16;11(9):764.;doi: 10.1038/s41419-020-02930-y. (IF 6.304)

49. Fan Xiao,Meixin Gao,Junru Yang,Lingling He,Hongshan Wei
FAM172A Deletion May Enhance Hepatic Steatosis by Promoting ER Stress
DIGEST DIS SCI. 2020 Sep 18.;doi: 10.1007/s10620-020-06601-y. (IF 2.751)

50. Xiuge Gao,Xiangchun Ruan,Hui Ji,Lin Peng,Yawei Qiu,Dan Yang,Xinhao Song,Chunlei Ji,Dawei Guo,Shanxiang Jiang
Maduramicin triggers methuosis-like cell death in primary chicken myocardial cells
Toxicol Lett. 2020 Oct 15;333:105-114.;doi: 10.1016/j.toxlet.2020.07.025. (IF 3.569)

51. Yongnan Li,Shuodong Wu
Curcumin inhibits the proteolytic process of SREBP-2 by first inhibiting the expression of S1P rather than directly inhibiting SREBP-2 expression
Food Sci Nutr. 2020 Nov 8;9(1):209-216.;doi: 10.1002/fsn3.1985. (IF 1.797)

52. Yajun Lu,Yuxiao Yang,Siqi Yang,Qianfeng Xia
Immunomodulatory action of excretory-secretory products of Angiostrongylus cantonensis in a mouse tumour model
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ER-Tracker Green (内质网绿色荧光探针)(C1042M)

ER-Tracker Green (内质网绿色荧光探针)

产品编号: C1042M

产品包装:100μl
选择包装

100μl 500μl 20μl

说明书下载

3598.00 10

价格: ¥ 3598.00

产品简介
使用说明
产品文件
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产品编号 产品名称 产品包装 产品价格
C1042M ER-Tracker Green (内质网绿色荧光探针) 100μl 3598.00元
C1042L ER-Tracker Green (内质网绿色荧光探针) 500μl 9998.00元
C1042S ER-Tracker Green (内质网绿色荧光探针) 20μl 1303.00元

ER-Tracker Green是一种具有细胞膜通透性的内质网(endoplasmic reticulum, ER)绿色荧光探针,对内质网具有高度选择性,可以用于活细胞内质网特异性荧光染色。

ER-Tracker Green为采用Molecular Probes公司的BODIPY® FL进行了荧光标记的glibenclamide。Glibenclamide即glyburide,中文名称为格列本脲,是一种常用2型糖尿病的治疗药物,可以高度结合主要定位在内质网上的包含ATP敏感的钾离子通道(KATP channel)的磺脲类(sulphonylurea)受体。因此荧光标记的glibenclamide就可以用作内质网特异性的荧光探针。ER-Tracker Green适用于活细胞内质网的荧光染色,但不适合用于固定细胞内质网的荧光染色。使用本产品染色活细胞内质网的效果参考图1。

ER-Tracker Green (内质网绿色荧光探针)(C1042M)

图1.ER-Tracker Green (内质网绿色荧光探针)对于NRK-52E细胞(大鼠肾小管上皮细胞)的染色效果。ER-Tracker Green染色的NRK-52E细胞其内质网呈现绿色荧光(图B),Mito-Tracker Red CMXRos (C1049B)染色的NRK-52E细胞其线粒体呈现红色荧光(图C),绿色荧光、红色荧光及细胞核蓝色荧光的叠加(merge)效果见图D。其中细胞核使用Hoechst 33342 (C1027)染色。本图仅作参考,实际检测效果会因实验条件、检测仪器等的不同而存在差异。

ER-Tracker Green的分子式为C37H42BClF2N6O6S,分子量为783.1。ER-Tracker Green呈绿色荧光,检测时最大激发光波长为504nm,最大发射光波长为511nm。ER-Tracker Green的化学结构式和激发、发射光谱图参考图2。

ER-Tracker Green (内质网绿色荧光探针)(C1042M)
图2.ER-Tracker Green的化学结构式(A)和激发、发射光谱图(B)。

ER-Tracker Green对于细胞的毒性极低,而传统的DiOC6(3)对ER染色的同时也对细胞有一定的毒性。

本产品包装中提供了ER-Tracker Green稀释液,使ER-Tracker Green的使用更加便捷。

按照1:1000的比例稀释,每10µl可以配制10ml ER-Tracker Green工作液;按照1:3000的比例进行稀释,每10µl可以配制30ml ER-Tracker Green工作液。

包装清单:

产品编号 产品名称 包装
C1042S-1 ER-Tracker Green (1mM) 20µl
C1042S-2 ER-Tracker Green稀释液 60ml
说明书 1份

产品编号 产品名称 包装
C1042M-1 ER-Tracker Green (1mM) 100µl
C1042M-2 ER-Tracker Green稀释液 250ml
说明书 1份

产品编号 产品名称 包装
C1042L-1 ER-Tracker Green (1mM) 500µl
C1042L-2 ER-Tracker Green稀释液 500ml×2
说明书 1份
保存条件:

-20℃保存,半年有效。ER-Tracker Green需-20℃避光保存。

注意事项:

ER-Tracker Green (1mM)在4℃、冰浴等较低温度情况下会凝固而粘在离心管管底、管壁或管盖内,可以20-25℃水浴温育片刻至全部融解后使用。对于微量的液体,每次使用前先离心数秒钟,使液体充分沉降到管底。

荧光染料均存在淬灭问题,请尽量注意避光,以减缓荧光淬灭。

格列本脲的药理学活性可能会影响内质网的一些功能;某些特殊细胞中磺脲类受体的可变表达可能会导致非内质网特异性染色。

ER-Tracker Green适用于活细胞内质网的荧光染色,但不适合用于固定细胞内质网的荧光染色。如果经ER-Tracker Green染色后的细胞需要进行固定操作,使用4%多聚甲醛在37℃固定2分钟。

ER-Tracker Green染色后的细胞不能用Triton X-100通透,Triton X-100通透处理会导致ER-Tracker Green的荧光染色消失。

需自备盖玻片和载玻片(可以向碧云天订购)。

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.ER-Tracker Green工作液的配制:
a.取少量ER-Tracker Green按照1:1000的比例加入到ER-Tracker Green稀释液中。例如取1µl ER-Tracker Green加入到1ml ER-Tracker Green稀释液中。混匀后即为ER-Tracker Green工作液。
b.ER-Tracker Green工作液使用前需37℃预温育。
注:工作液中ER-Tracker Green的浓度可以根据实际情况进行适当调整,推荐的稀释比例调整范围为1:1000-1:3000。为降低背景,在染色效果可以接受的范围内,建议尽量使用较低浓度的ER-Tracker Green。
2.内质网的荧光标记:
a.去除细胞培养液,用适量的溶液如HBSS with Ca2+ & Mg2+ (Hanks’ Balanced Salt Solution with Ca2+ & Mg2+)洗涤生长在盖玻片上的细胞。注:HBSS with Ca2+ & Mg2+ (C0219)可以向碧云天订购;对于悬浮细胞的染色可以参考贴壁细胞的染色方法进行。
b.去除洗涤液,加入步骤1配制好的并37℃预温育的ER-Tracker Green染色工作液,与细胞37℃共孵育15-30分钟。
c.去除ER-Tracker Green染色工作液,用细胞培养液洗涤细胞1-2次。
d.随后通常用荧光显微镜或激光共聚焦显微镜进行观察。此时可观察到内质网呈明亮的强荧光染色。
e.如果经ER-Tracker Green染色后的细胞需要进行固定,可以使用4%甲醛37℃固定2分钟。固定后用适当的洗涤液洗涤2-3次,每次5分钟,随后可以进行复染或滴加适当的抗荧光淬灭封片液,最后封片观察。注意:ER-Tracker Green染色的细胞不能用Triton X-100通透,Triton X-100通透处理会导致ER-Tracker Green的荧光染色消失。
相关产品:
产品编号 产品名称 包装
C1002 DAPI 5mg/ml×0.2ml
C1005/C1006 DAPI染色液 10ml/50ml
C1011 Hoechst 33258 10mg
C1017/C1018 Hoechst 33258染色液 10ml/50ml
C1022 Hoechst 33342 10mg
C1025/C1026 Hoechst 33342染色液 10ml/50ml
C1027/C1028/C1029 Hoechst 33342活细胞染色液(100X) 0.1ml/0.5ml/3ml
C1033 Actin-Tracker Green (微丝绿色荧光探针) 0.2ml
C1036 DiI (细胞膜红色荧光探针) 10mg
C1038 DiO (细胞膜绿色荧光探针) 10mg
C1039-10mg DiD (细胞膜远红外荧光探针) 10mg
C1041S/M/L ER-Tracker Red (内质网红色荧光探针) 20μl/100μl/500μl
C1042S/M/L ER-Tracker Green (内质网绿色荧光探针) 20μl/100μl/500μl
C1043 Golgi-Tracker Red (高尔基体红色荧光探针) 1mg
C1045S Golgi-Tracker Green (高尔基体绿色荧光探针) 1mg
C1046 Lyso-Tracker Red (溶酶体红色荧光探针) 50μl
C1047S Lyso-Tracker Green (溶酶体绿色荧光探针) 50μl
C1048 Mito-Tracker Green (线粒体绿色荧光探针) 50μg
C1049B-50μg Mito-Tracker Red CMXRos (线粒体红色荧光探针) 50μg
C1049B-250μg Mito-Tracker Red CMXRos (线粒体红色荧光探针) 50μg×5
C1050 Tubulin-Tracker Red (抗体法微管红色荧光探针) 40μl
C1051S Tubulin-Tracker Green (抗体法微管绿色荧光探针) 40μl
C1991S 细胞膜红色荧光染色试剂盒(DiI) 200-1000次
C1993S 细胞膜绿色荧光染色试剂盒(DiO) 200-1000次
C1995S 细胞膜远红外荧光染色试剂盒(DiD) 200-1000次
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ER-Tracker Green (内质网绿色荧光探针)(C1042M)
ER-Tracker Green (内质网绿色荧光探针)(C1042M)

物质安全数据单

下载

ER-Tracker Green (内质网绿色荧光探针)(C1042M)
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相关产品请点击如下按钮:
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细胞器荧光探针

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ER-Tracker Red (内质网红色荧光探针)(C1041S)

ER-Tracker Red (内质网红色荧光探针)

产品编号: C1041S

产品包装:20μl
选择包装

20μl 100μl 500μl

说明书下载

1303.00 10

价格: ¥ 1303.00

产品简介
使用说明
产品文件
相关产品
相关论文
产品问答
产品编号 产品名称 产品包装 产品价格
C1041S ER-Tracker Red (内质网红色荧光探针) 20μl 1303.00元
C1041M ER-Tracker Red (内质网红色荧光探针) 100μl 3598.00元
C1041L ER-Tracker Red (内质网红色荧光探针) 500μl 9998.00元

ER-Tracker Red是一种具有细胞膜通透性的内质网(endoplasmic reticulum, ER)红色荧光探针,对内质网有高度选择性,可以用于活细胞内质网特异性荧光染色。
ER-Tracker Red为采用Molecular Probes公司的BODIPY TR进行了荧光标记的glibenclamide。Glibenclamide即glyburide,中文名为格列苯脲,是一种2型糖尿病治疗药物,可以结合主要定位在内质网上的包含ATP敏感的钾离子通道(KATP channel)的磺脲类(sulphonylurea)受体。因此荧光标记的glibenclamide就可以用作内质网特异性的荧光探针。ER-Tracker Red适用于活细胞内质网的荧光染色,但不适合用于固定细胞内质网的荧光染色。
ER-Tracker Red的分子式为C44H42BClF2N6O7S2,分子量为915.23,ER-Tracker Red的化学结构式参考图1。
ER-Tracker Red (内质网红色荧光探针)(C1041S) 图1.ER-Tracker Red的化学结构式。 ER-Tracker Red对于细胞的毒性极低。而传统的DiOC6(3)对ER染色的同时也对细胞有一定的毒性。
ER-Tracker Red呈红色荧光,检测时的最大激发波长为587nm,最大发射波长为615nm。ER-Tracker Red的激发光谱和发射光谱参考图2。
ER-Tracker Red (内质网红色荧光探针)(C1041S) 图2.ER-Tracker Red的激发光谱和发射光谱。 ER-Tracker Red按照后附的使用说明染色后,用甲醛等固定后染色效果可以被部分保留。ER-Tracker Red在活细胞中的染色效果参考图2。
ER-Tracker Red (内质网红色荧光探针)(C1041S) 图3.ER-Tracker Red(内质网红色荧光探针)对于NRK-52E细胞(大鼠肾小管上皮细胞)的染色效果。Mito-Tracker Green染色的NRK-52E细胞其线粒体呈现绿色荧光(图B),ER-Tracker Red染色的NRK-52E细胞其内质网呈现红色荧光(图C),绿色荧光、红色荧光及细胞核蓝色荧光的叠加(merge)效果见图D。其中细胞核使用Hoechst 33342 (C1027)染色。本图仅作参考,实际检测效果会因实验条件、检测仪器等的不同而存在差异。
提供了ER-Tracker Red 稀释液,使ER-Tracker Red的使用更加便捷。
按照1:1000的比例稀释,每10µl可以配制10ml ER-Tracker Red工作液;按照1:3000的比例稀释,每10µl可以配制30ml ER-Tracker Red工作液。
包装清单:

产品编号 产品名称 包装
C1041S-1 ER-Tracker Red (1mM) 20µl
C1041S-2 ER-Tracker Red稀释液 60ml
说明书 1份

产品编号 产品名称 包装
C1041M-1 ER-Tracker Red (1mM) 100µl
C1041M-2 ER-Tracker Red稀释液 250ml
说明书 1份

产品编号 产品名称 包装
C1041L-1 ER-Tracker Red (1mM) 500µl
C1041L-2 ER-Tracker Red稀释液 500ml×2
说明书 1份

保存条件:
-20℃保存,半年有效。ER-Tracker Red需-20℃避光保存。
注意事项:
ER-Tracker Red(1mM)在4℃、冰浴等较低温度情况下会凝固而粘在离心管管底、管壁或管盖内,可以20-25℃水浴温育片刻至全部融解后使用。对于微量的液体,每次使用前先离心数秒钟,使液体充分沉降到管底。
荧光染料均存在淬灭问题,请尽量注意避光,以减缓荧光淬灭。
需自备盖玻片和载玻片(可以向碧云天订购)。
格列本脲的药理学活性可能会影响内质网的一些功能;某些特殊细胞中磺脲类受体的可变表达可能会导致非内质网特异性染色。
ER-Tracker Red适用于活细胞内质网的荧光染色,但不适合用于固定细胞内质网的荧光染色。如果经ER-Tracker Red染色后的细胞需要进行固定操作,使用4%多聚甲醛在37℃固定2分钟。
ER-Tracker Red染色后的细胞不能用Triton X-100通透,Triton X-100通透处理会导致ER-Tracker Red的荧光染色消失。
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.ER-Tracker Red工作液的配制:
a.取少量ER-Tracker Red按照1:1000的比例加入到ER-Tracker Red 稀释液中。例如取1μl ER-Tracker Red加入到1ml ER-Tracker Red 稀释液中。混匀后即为ER-Tracker Red工作液。
b.ER-Tracker Red工作液使用前需37℃预温育。
注:工作液中ER-Tracker Red的浓度可以根据实际情况进行适当调整,推荐的稀释比例调整范围为1:1000-1:3000。为降低背景,在染色效果可以接受的范围内,建议尽量使用较低浓度的ER-Tracker Red。
2.内质网的荧光标记:
a.去除细胞培养液,用适量的溶液如HBSS with Ca2+ & Mg2+ (Hanks’ Balanced Salt Solution with Ca2+ & Mg2+)洗涤生长在盖玻片上的细胞。注:HBSS with Ca2+ & Mg2+ (C0219)可以向碧云天订购;对于悬浮细胞的染色可以参考贴壁细胞的染色方法进行。
b.去除洗涤液,加入步骤1配制好的并37℃预温育的ER-Tracker Red染色工作液,与细胞37℃共孵育15-30分钟。
c.去除ER-Tracker Red染色工作液,用细胞培养液洗涤细胞1-2次。
d.随后通常用荧光显微镜或激光共聚焦显微镜进行观察。此时可观察到内质网呈明亮的强荧光染色。
e.如果经ER-Tracker Red染色后的细胞需要进行固定,可以使用4%甲醛37℃固定2分钟。固定后用适当的洗涤液洗涤2-3次,每次5分钟,随后可以进行复染或滴加适当的抗荧光淬灭封片液,最后封片观察。注意:ER-Tracker Red染色的细胞不能用Triton X-100通透,Triton X-100通透处理会导致ER-Tracker Red的荧光染色消失。

相关产品:

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C1002 DAPI 5mg/ml×0.2ml
C1005/C1006 DAPI染色液 10ml/50ml
C1011 Hoechst 33258 10mg
C1017/C1018 Hoechst 33258染色液 10ml/50ml
C1022 Hoechst 33342 10mg
C1025/C1026 Hoechst 33342染色液 10ml/50ml
C1027/C1028/C1029 Hoechst 33342活细胞染色液(100X) 0.1ml/0.5ml/3ml
C1033 Actin-Tracker Green (微丝绿色荧光探针) 0.2ml
C1036 DiI (细胞膜红色荧光探针) 10mg
C1038 DiO (细胞膜绿色荧光探针) 10mg
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C1041S/M/L ER-Tracker Red (内质网红色荧光探针) 20μl/100μl/500μl
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C1047S Lyso-Tracker Green (溶酶体绿色荧光探针) 50μl
C1048 Mito-Tracker Green (线粒体绿色荧光探针) 50μg
C1049B-50μg Mito-Tracker Red CMXRos (线粒体红色荧光探针) 50μg
C1049B-250μg Mito-Tracker Red CMXRos (线粒体红色荧光探针) 50μg×5
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C1051S Tubulin-Tracker Green (抗体法微管绿色荧光探针) 40μl
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C1993S 细胞膜绿色荧光染色试剂盒(DiO) 200-1000次
C1995S 细胞膜远红外荧光染色试剂盒(DiD) 200-1000次
C2005 JC-1 1mg
C2007 Rhodamine 123 5mg

ER-Tracker Red (内质网红色荧光探针)(C1041S)
ER-Tracker Red (内质网红色荧光探针)(C1041S)

物质安全数据单

下载

ER-Tracker Red (内质网红色荧光探针)(C1041S)
质检证书
输入批号搜寻COA

搜索

相关产品请点击如下按钮:
荧光染色
内质网
细胞器荧光探针

使用本产品的文献:

1. Zhang S, Wu W, Wu Y, Zheng J, Suo T, Tang H, Tang J.
RNF152, a novel lysosome localized E3 ligase with pro-apoptotic activities.
Protein Cell . 2010 Jul;1(7):656-63. (IF 10.164)

2. Shao J, Dai Y, Zhao W, Xie J, Xue J, Ye J, Jia L.
Intracellular distribution and mechanisms of actions of photosensitizer Zinc(II)-phthalocyanine solubilized in Cremophor EL against human hepatocellular carcinoma HepG2 cells.
Cancer Lett .2013 Mar 1;330(1):49-56. (IF 7.36)

3. Wu S, Wang F, Huang J, Fang Q, Shen Z, Ye G.
Molecular and cellular analyses of a ryanodine receptor from hemocytes of Pieris rapae.
Dev Comp Immunol . 2013 Sep;41(1):1-10. (IF 3.192)

4. Wu L, Yang X, Duan X, Cui L, Li G.
Exogenous expression of marine lectins DlFBL and SpRBL induces cancer cell apoptosis possibly through PRMT5-E2F-1 pathway.
SCI REP-UK . 2014 Mar 28;4:4505. (IF 3.998)

5. Pan C, Hu YF, Yi HS, Song J, Wang L, Pan MH, Lu C.
Role of Bmbuffy in hydroxycamptothecine-induced apoptosis in BmN-SWU1 cells of the silkworm, Bombyx mori.
BIOCHEM BIOPH RES CO . 2014 May 2;447(2):237-43. (IF 2.985)

6. Yang X, Wu L, Duan X, Cui L, Luo J, Li G.
Adenovirus carrying gene encoding Haliotis discus discus sialic acid binding lectin induces cancer cell apoptosis.
Mar Drugs . 2014 Jun 30;12(7):3994-4004. (IF 4.073)

7. Qin C, He B, Dai W, Lin Z, Zhang H, Wang X, Wang J, Zhang X, Wang G, Yin L, Zhang Q.
The impact of a chlorotoxin-modified liposome system on receptor MMP-2 and the receptor-associated protein ClC-3.
Biomaterials . 2014 Jul;35(22):5908-20. (IF 10.317)

8. Zhang BC, Zhang J, Xiao ZZ, Sun L.
Rock bream (Oplegnathus fasciatus) viperin is a virus-responsive protein that modulates innate immunity and promotes resistance against megalocytivirus infection.
Dev Comp Immunol . 2014 Jul;45(1):35-42. (IF 3.192)

9. Zhang Y, Zhou L, Zou J, Wang M, Qi J, Qi Z.
Palmitoylation of STREX domain confers cerebroside sensitivity to the BKCa channel.
BBA-BIOMEMBRANES . 2014 Oct;1838(10):2451-9. (IF 3.411)

10. Ao D, Guo HC, Sun SQ, Sun DH, Fung TS, Wei YQ, Han SC, Yao XP, Cao SZ, Liu DX, Liu XT.
Viroporin Activity of the Foot-and-Mouth Disease Virus Non-Structural 2B Protein.
PLoS One . 2015 May 6;10(5):e0125828. (IF 2.74)

11. Lu J, Cao Y, Cheng K, Xu B, Wang T, Yang Q, Yang Q, Feng X, Xia Q.
Berberine regulates neurite outgrowth through AMPK-dependent pathways by lowering energy status.
Exp Cell Res . 2015 Jun 10;334(2):194-206. (IF 3.383)

12. Zhang B, Han H, Fu S, Yang P, Gu Z, Zhou Q, Cao Z.
Dehydroeffusol inhibits gastric cancer cell growth and tumorigenicity by selectively inducing tumor-suppressive endoplasmic reticulum stress and a moderate apoptosis.
Biochem Pharmacol . 2016 Mar 15;104:8-18. (IF 4.96)

13. Ma R, Zhang J, Liu X, Li L, Liu H, Rui R, Gu L, Wang Q.
Involvement of Rab6a in organelle rearrangement and cytoskeletal organization during mouse oocytematuration.
SCI REP-UK . 2016 Mar 31;6:23560. (IF 3.998)

14. Xu Y, Xu J, Shan W, Liu M, Cui Y, Li L, Liu C, Huang Y.
The transport mechanism of integrin αvβ3 receptor targeting nanoparticles in Caco-2 cells.
INT J PHARMACOL . 2016 Mar 16;500(1-2):42-53. (IF 0.692)

15. Li G, Gao Y, Cui L, Wu L, Yang X, Chen J.
Anguilla japonica lectin 1 delivery through adenovirus vector induces apoptotic cancer cell deaththrough interaction with PRMT5.
J Gene Med . 2016 Apr;18(4-6):65-74. (IF 3.258)

16. Zhang ZZ, Yuan K, Yue HT, Yuan FH, Bi HT, Weng SP, He JG, Chen YH.
Identification and functional characterization of an endoplasmic reticulum oxidoreductin 1-α gene inLitopenaeus vannamei.
Dev Comp Immunol . 2016 Apr;57:10-9. (IF 3.192)

17. Bi HT, Yuan FH, Yuan K, Weng SP, He JG, Chen YH.
Identification and functional characterization of a glucose regulated protein 94 gene in Litopenaeusvannamei and its responsiveness in WSSV infection.
Mol Immunol . 2016 May;73:29-36. (IF 3.641)

18. Chen X, Zhang X, Wang HY, Chen Z, Wu FG.
Subcellular Fate of a Fluorescent Cholesterol-Poly(ethylene glycol) Conjugate: An Excellent PlasmaMembrane Imaging Reagent.
Langmuir . 2016 Oct 4;32(39):10126-10135. (IF 3.557)

19. Sun W, Li L, Yang QQ, Zhang ZR, Huang Y.
Two birds, one stone: dual targeting of the cancer cell surface and subcellular mitochondria by thegalectin-3-binding peptide G3-C12.
Acta Pharmacol Sin . 2017 Jan 9. doi: 10.1038/aps.2016.137. (IF 5.064)

20. Wang H, Niu H, Zhai Y, Lu M.
Characterization of BiP Genes from Pepper (Capsicum annuum L.)andthe Role of CaBiP1 in Response to Endoplasmic Reticulum and Multiple Abiotic Stresses.
Front Plant Sci . 2017 Jun 28;8:1122. (IF 4.402)

21. Dong W,Lv H,Guo K,Wang T,Ouyang Y,Jin M,Zhang Y
Classical Swine Fever Virus Infection and Its NS4A Protein Expression Induce IL-8 Production through MAVS Signaling Pathway in Swine Umbilical Vein Endothelial Cells.
Front Microbiol . 2018 Jan 12;8:2687. (IF 4.235)

22. Zheng S,Huang C,Zhao X,Zhang Y,Liu S,Zhu Q
A hydrophobic organelle probe based on aggregation-induced emission: Nanosuspension preparation and direct use for endoplasmic reticulum imaging in living cells.
SPECTROCHIM ACTA A . 2018 Jan 15;189:231-238. (IF 3.232)

23. La X,Zhang L,Li H,Li Z,Song G,Yang P,Yang Y
Ajuba receptor mediates the internalization of tumor-secreted GRP78 into macrophages through different endocytosis pathways.
ONCOTARGET . 2018 Jan 9;9(21):15464-15479. (IF 5.168)

24. Wang B,Wen A,Feng C,Niu L,Xiao X,Luo L,Shen C,Zhu J,Lei J,Zhang X
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Acta Biomater . 2018 Jun;73:180-189. (IF 7.242)

25. E S,Mao QX,Yuan XL,Kong XL,Chen XW,Wang JH
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Nanoscale . 2018 Jul 9;10(26):12788-12796. (IF 6.895)

26. Gong X,Sun R,Gao Z,Han W,Liu Y,Zhao L,Jing L,Yao X,Sun X
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Front Pharmacol . 2018 Sep 26;9:1044. (IF 4.225)

27. Ling J,Ma Z,Liu L,Yin J,Su J,Shen F,Xie L,Hu S
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CLIN EXP PHARMACOL P  . 2018 Nov;45(11):1181-1186. (IF 2.092)

28. Guo C,Ma R,Liu X,Xia Y,Niu P,Ma J,Zhou X,Li Y,Sun Z
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29. Xu A,Tang Y,Lin W
Endoplasmic reticulum-targeted two-photon turn-on fluorescent probe for nitroreductase in tumor cells and tissues.
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30. Lian YY,He HH,Zhang CZ,Li XC,Chen YH
Functional characterization of a matrix metalloproteinase 2 gene in Litopenaeus vannamei.
FISH SHELLFISH IMMUN. 2019 Jan;84:404-413. (IF 3.298)

31. Li X,Du X,Ni J
Zn2+ Aggravates Tau Aggregation and Neurotoxicity.
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32. Yan JJ,Wang XY,Wang MZ,Pan DH,Yang RL,Xu YP,Wang LZ,Yang M
Self-Assembling Nonconjugated Poly(amide-imide) into Thermoresponsive Nanovesicles with Unexpected Red Fluorescence for Bioimaging.
Biomacromolecules. 2019 Mar 11;20(3):1455-1463. (IF 6.092)

33. Xu D,Wu L,Jiang X,Yang L,Cheng J,Chen H,Hua R,Geng G,Yang L,Li Q
SIRT2 Inhibition Results in Meiotic Arrest, Mitochondrial Dysfunction, and Disturbance of Redox Homeostasis during Bovine Oocyte Maturation.
Int J Mol Sci. 2019 Mar 18;20(6). pii: E1365. (IF 4.556)

34. Jiang YJ,Lin M,Yang T,Li RS,Huang CZ,Wang J,Li YF
Nitrogen and phosphorus doped polymer carbon dots as a sensitive cellular mapping probe of nitrite.
J Mater Chem B. 2019 Mar 28;7(12):2074-2080. (IF 5.344)

35. Bao XZ,Dai F,Wang Q,Jin XL,Zhou B
Developing glutathione-activated catechol-type diphenylpolyenes as small molecule-based and mitochondria-targeted prooxidative anticancer theranostic prodrugs.
FREE RADICAL BIO MED. 2019 Apr;134:406-418. (IF 6.17)

36. Chen P,Zhao M,Chen Q,Fan L,Gao F,Zhao L
Absorption Characteristics of Chitobiose and Chitopentaose in the Human Intestinal Cell Line Caco-2 and Everted Gut Sacs.
J AGR FOOD CHEM. 2019 Apr 24;67(16):4513-4523. (IF 4.192)

37. Tan X,Zhang Y,Wang Q,Ren T,Gou J,Guo W,Yin T,He H,Zhang Y,Tang X
Cell-penetrating peptide together with PEG-modified mesostructured silica nanoparticles promotes mucous permeation and oral delivery of therapeutic proteins and peptides.
BIOMATER SCI-UK. 2019 Jun 25;7(7):2934-2950. (IF 6.183)

38. Lu S,Zhang J,Lian X,Sun L,Meng K,Chen Y,Sun Z,Yin X,Li Y,Zhao J,Wang T,Zhang G,He QY
A hidden human proteome encoded by ‘non-coding’ genes.
Nucleic Acids Res. 2019 Sep 5;47(15):8111-8125. (IF 11.501)

39. Liang XD,Zhang YN,Liu CC,Chen J,Chen XN,Sattar Baloch A,Zhou B
U18666A inhibits classical swine fever virus replication through interference with intracellular cholesterol trafficking.
Vet Microbiol. 2019 Nov;238:108436. (IF 3.03)

40. Dong C,Tu W,He M,Fu J,Kobayashi A,Konishi T,Shao C
Role of Endoplasmic Reticulum and Mitochondrion in Proton Microbeam Radiation-Induced Bystander Effect.
Radiat Res. 2020 Jan;193(1):63-72. (IF 2.657)

41. Xia Q,Wang X,Liu Y,Shen Z,Ge Z,Huang H,Li X,Wang Y
An endoplasmic reticulum-targeted two-photon fluorescent probe for bioimaging of HClO generated during sleep deprivation.
SPECTROCHIM ACTA A. 2020 Mar 15;229:117992. (IF 3.232)

42. Zhaoyang Wang,Jiaoyan Jia,Lu Wang,Feng Li,Yiliang Wang,Yuzhou Jiang,Xiaowei Song,Shurong Qin,Kai Zheng,Ju Ye,Zhe Ren,Yifei Wang,Shuhua Qi
Anti-HSV-1 activity of Aspergillipeptide D, a cyclic pentapepetide isolated from fungus Aspergillus sp. SCSIO 41501
Virol J. 2020 Mar 19;17(1):41.;doi: 10.1186/s12985-020-01315-z. (IF 2.579)

43. Ru-Jia Xie,Xiao-Xia Hu,Lu Zheng,Shuang Cai,Yu-Si Chen,Yi Yang,Ting Yang,Bing Han,Qin Yang
Calpain-2 activity promotes aberrant endoplasmic reticulum stress-related apoptosis in hepatocytes
WORLD J GASTROENTERO. 2020 Apr 7;26(13):1450-1462.;doi: 10.3748/wjg.v26.i13.1450. (IF 3.665)

44. Ming-Hong Sun,Xiao-Han Li,Yao Xu,Yi Xu,Zhen-Nan Pan,Shao-Chen Sun
Citrinin exposure disrupts organelle distribution and functions in mouse oocytes
Environ Res. 2020 Jun;185:109476.;doi: 10.1016/j.envres.2020.109476. (IF 5.715)

45. Zhi-Fei Liu,Jian-Fei Ji,Xiao-Feng Jiang,Tong Shao,Dong-Dong Fan,Xin-Hang Jiang,Ai-Fu Lin,Li-Xin Xiang,Jian-Zhong Shao
Characterization of cGAS homologs in innate and adaptive mucosal immunities in zebrafish gives evolutionary insights into cGAS-STING pathway
FASEB J. 2020 Jun;34(6):7786-7809.;doi: 10.1096/fj.201902833R. (IF 4.966)

46. Zhen-Nan Pan,Meng-Hao Pan,Ming-Hong Sun,Xiao-Han Li,Yu Zhang,Shao-Chen Sun
RAB7 GTPase regulates actin dynamics for DRP1-mediated mitochondria function and spindle migration in mouse oocyte meiosis
FASEB J. 2020 Jul;34(7):9615-9627.;doi: 10.1096/fj.201903013R. (IF 4.966)

47. Zhiyong Xiong,Changfei Yuan,Jian Shi,Wei Xiong,Yu Huang,Wen Xiao,Hongmei Yang,Ke Chen,Xiaoping Zhang
Restoring the epigenetically silenced PCK2 suppresses renal cell carcinoma progression and increases sensitivity to sunitinib by promoting endoplasmic reticulum stress
Theranostics. 2020 Sep 15;10(25):11444-11461.;doi: 10.7150/thno.48469. (IF 8.579)

48. Wei Xin,Min Zhang,Yang Yu,Songlin Li,Cui Ma,Junting Zhang,Yuan Jiang,Yiying Li,Xiaodong Zheng,Lixin Zhang,Xijuan Zhao,Xuzhong Pei,Daling Zhu
BCAT1 binds the RNA-binding protein ZNF423 to activate autophagy via the IRE1-XBP-1-RIDD axis in hypoxic PASMCs
Cell Death Dis. 2020 Sep 16;11(9):764.;doi: 10.1038/s41419-020-02930-y. (IF 6.304)

49. Fan Xiao,Meixin Gao,Junru Yang,Lingling He,Hongshan Wei
FAM172A Deletion May Enhance Hepatic Steatosis by Promoting ER Stress
DIGEST DIS SCI. 2020 Sep 18.;doi: 10.1007/s10620-020-06601-y. (IF 2.751)

50. Xiuge Gao,Xiangchun Ruan,Hui Ji,Lin Peng,Yawei Qiu,Dan Yang,Xinhao Song,Chunlei Ji,Dawei Guo,Shanxiang Jiang
Maduramicin triggers methuosis-like cell death in primary chicken myocardial cells
Toxicol Lett. 2020 Oct 15;333:105-114.;doi: 10.1016/j.toxlet.2020.07.025. (IF 3.569)

51. Yongnan Li,Shuodong Wu
Curcumin inhibits the proteolytic process of SREBP-2 by first inhibiting the expression of S1P rather than directly inhibiting SREBP-2 expression
Food Sci Nutr. 2020 Nov 8;9(1):209-216.;doi: 10.1002/fsn3.1985. (IF 1.797)

52. Yajun Lu,Yuxiao Yang,Siqi Yang,Qianfeng Xia
Immunomodulatory action of excretory-secretory products of Angiostrongylus cantonensis in a mouse tumour model
Parasitol Res. 2020 Nov;119(11):3705-3718.;doi: 10.1007/s00436-020-06872-4. (IF 1.641)

53. Yaxian Zheng,Liyun Xing,Liqiang Chen,Rui Zhou,Jiawei Wu,Xi Zhu,Lian Li,Yucheng Xiang,Ruinan Wu,Ling Zhang,Yuan Huang
Tailored elasticity combined with biomimetic surface promotes nanoparticle transcytosis to overcome mucosal epithelial barrier
Biomaterials. 2020 Dec;262:120323.;doi: 10.1016/j.biomaterials.2020.120323. (IF 10.317)

54. Xiaoyu Wang,Yu Zhuang,Yukun Fang,Huabin Cao,Caiying Zhang,Chenghong Xing,Xiaoquan Guo,Guyue Li,Ping Liu,Guoliang Hu,Fan Yang
Endoplasmic reticulum stress aggravates copper-induced apoptosis via the PERK/ATF4/CHOP signaling pathway in duck renal tubular epithelial cells
Environ Pollut. 2021 Mar 1;272:115981.;doi: 10.1016/j.envpol.2020.115981. (IF 6.792)

55. Xueling Su,Xi Yan,Xing Chen,Mei Guo,Yuxian Xia,Yueqing Cao
Calcofluor white hypersensitive proteins contribute to stress tolerance and pathogenicity in entomopathogenic fungus, Metarhizium acridum
Pest Manag Sci. 2021 Apr;77(4):1915-1924.;doi: 10.1002/ps.6218. (IF 3.75)