FM 2-10 (N-(3-Triethylammoniumpropyl)-4-(4-(diethylamino)styryl)pyridinium dibromide) 神经末梢荧光探针

FM 2-10;FM 1-43;FM 4-64;SynaptoGreen™ C2;SynaptoRed C2;Synaptic vesicle 突触小泡;SynaptoGreen™ C4;

订购信息:

产品名称

规格              
FM 2-10 (N-(3-Triethylammoniumpropyl)-4-(4-(diethylamino)styryl)    

pyridinium dibromide)

      1mg

产品描述

FM 2-10,英文全名:N-(3-Triethylammoniumpropyl)-4-(4-(diethylamino)styryl)pyridinium dibromide,是一种亲脂的苯乙烯染料,是一种优秀的膜探针用来鉴定活跃的放电神经元和用于调研活动依赖性的囊泡循环。这一水溶性的染料对细胞无毒,且在水溶液中基本无荧光,一旦插入细胞膜外层后发射强荧光。在活跃释放神经递质的神经元中,FM 2-10染料内在化进入循环的突出囊泡,神经末梢被明亮染色。

FM 2-10是FM 1-43(MX4014)的结构类似物,具更高的亲水性,因此,能够在某些定量应用中表现出更快的脱色速率。

产品特性

  1. 同义名:N-(3-Triethylammoniumpropyl)-4-(4-(diethylamino)styryl)pyridinium dibromide
  2. 分子式:C26H41Br2N3
  3. 分子量:555.43
  4. 纯度:≥95%(HPLC)
  5. 溶解性:溶于水
  6. Ex/Em:506/620nm (MeOH); 480/598 (membrane-bound);
  7. 化学结构式:

保存与运输方法

保存:-20°C避光干燥保存,至少1年有效。

运输:冰袋运输。

注意事项

  1. 荧光染料都存在淬灭的问题,保存和操作过程中注意避光。
  2. 苯乙烯染料在水溶液中基本无荧光,最大发射波长具pH依赖性。苯乙烯染料的光谱特征在甲醇或氯仿中测定。其在膜环境中的最大激发和最大发射波长都会变短。最大激发波长的差异通常在20nm,发射波长的差异通常是80nm,但依具体的探针有所差异。
  3. FM®是Molecular Probe公司的注册商标。
  4. 为了您的安全和健康,请穿实验服并戴一次性手套操作。

使用方法

1. 储存液配制

于实验前,将冻干粉置于室温回温至少20min,加入无菌水配制成10mM或其他浓度储存液,比如,对于1mgFM 2-10(Mw:555.43)加入180μl DMSO,充分溶解后即得到10mM储存液,根据单次用量分装,≤-20℃冻存,避免反复冻融。

2. 染色方法(仅作参考)

【注意】:

a)以下以爬片生长的贴壁活细胞的质膜染色为例,仅作参考。最佳的染色条件根据使用细胞特征进行调整。

b)由于FM 2-10快速被内吞,很有必要参考下方的温度和时间指导来减慢内吞,提高质膜的选择性标记和成像。内吞很可能在染色的10min内发生。

c)以下步骤推荐使用不含钙镁的HBSS(MS3502-500ML)。钙镁的存在明显会加速染料内吞,导致质膜选择性染色很弱。

2.1用提前冰浴的HBSS缓冲液来稀释储存液到所需的工作浓度比如8μM。

2.2将盖玻片从培养基内取出,快速的浸入含足量FM 2-10的染色工作液,冰上孵育1min。质膜能被快速染色。

2.3将盖玻片从染色工作液中取出,置于载玻片上封片,周围用石蜡密封,置于冰上,立即成像。

相关产品

名称 规格
FM 1-43 (N-(3-Triethylammoniumpropyl)-4-(4-(dibutylamino)styryl)

pyridinium dibromide)

1mg              
FM 2-10 (N-(3-Triethylammoniumpropyl)-4-(4-(diethylamino)styryl)

pyridinium dibromide)

1mg
FM 4-64 (N-(3-Triethylammoniumpropyl)-4-(6-(4-(Diethylamino) Phenyl) Hexatrienyl)

  Pyridinium Dibromide)

1mg
RH 237 (N-(4-Sulfobutyl)-4-(6-(4-(dibutylamino)phenyl)hexatrienyl)pyridinium,

inner salt)

5mg
RH 421 (N-(4-Sulfobutyl)-4-(4-(4- (dipentylamino)phenyl)butadienyl)pyridinium, inner salt)    5mg
RH 414 (N-(3-Triethylammoniumpropyl)-4-(4-(4-(diethylamino)phenyl)butadienyl)

pyridinium dibromide)

5mg
RH 795 1mg
  1× Hanks’ Balanced Salt Solution (w/o Ca2+&Mg2+, w/ phenol red) 500ml

FM 4-64 (N-(3-Triethylammoniumpropyl)-4-(6-(4-(Diethylamino) Phenyl) Hexatrienyl) Pyridinium Dibromide)

FM 4-64;FM 1-43;SynaptoRed C2;Lipophilic probe;Yeast vacuolar membranes 酵母液泡膜;Synaptic vesicle 突触小泡;  

产品描述

FM 4-64,英文全名:N-(3-Triethylammoniumpropyl)-4-(6-(4-(Diethylamino) Phenyl) Hexatrienyl) Pyridinium Dibromide,是一种亲脂的苯乙烯染料,用作一种活细胞探针示踪酵母整体膜内在化和运输到液泡。FM 4-64是一种灵敏的液泡动力学分析探针,检测一系列相关事件,包括有丝分裂中的分离结构形成、液泡分裂和融合事件,以及液泡蛋白质分拣蛋白突变体在不同阶段的液泡形态。

FM 4-64具水溶性、对细胞无毒性,在水溶液中基本无荧光,一旦插入脂膜表面发出强的红色荧光(Ex/Em= 558/734nm)。FM 4-64与呈绿色荧光的FM 1-43(MX4014)在合适的滤片能够区分开,允许双色实时观察膜的再循环。

产品特性

1)同义名:N-(3-Triethylammoniumpropyl)-4-(6-(4-(diethylamino)phenyl)hexatrienyl)pyridinium dibromide

2)分子式:C30H45Br2N3

3) 分子量:607.51

4) 纯度:≥90%(HPLC)

5) 外观:紫色固体 

6) 溶解性:溶于水、DMSO

7) Ex/Em:558/734nm(与膜结合)

8) 溶解性:溶于水

9) 化学结构式:

保存与运输方法

保存:-20°C避光干燥保存,至少1年有效。 

运输:冰袋运输。

注意事项

  • 荧光染料都存在淬灭的问题,保存和操作过程中注意避光。
  • FM®是Molecular Probe公司的注册商标。
  • 为了您的安全和健康,请穿实验服并戴一次性手套操作。

应用示例(来自文献,仅作参考)

文献一、Luo Wj et al. Novel Genes Involved in Endosomal Traffic in Yeast Revealed by Suppression of a Targeting-defective Plasma Membrane ATPase Mutant. J Cell Biol. 1997 Aug 25;138(4):731-46. PMID: 9265642

使用方法(FM 4-64 Endocytosis):For FM 4-64 internalization studies, cells were grown to mid-log phase in YPD. After resuspension in fresh YPD at 20 OD600/ml, 20 μM FM 4-64 was added for 5 min at 30°C. Cells were washed, and incubation continued at 30°C for 1 h. FM 4-64 fluorescence was observed with rhodamine fluorescence filter sets. 【使用FM 4-64的原理在于:FM 4-64是批量质膜内在化的一种标记探针,从细胞表面到液泡膜的内吞示踪的转运以一种时间、温度和能量依赖性的方式进行。】

Fig 1. Visualization of endocytosis in sop mutants by FM 4-64 staining. Exponentially growing wild-type cells and sop mutants were stained with FM 4-64 for 5 min at 30°C, washed, and incubated in fresh YPD for 1 h before visualization and photography. Vacuolar membrane staining is seen in wild-type cells (L3852). In vps36 (WLX12-7C), a class E vps mutant, FM 4-64 dye is accumulated in a prevacuolar compartment. A similar accumulation of dye as a spot near the vacuole is seen in vps38 (WLX14-10A) and vps13 (WLX15-4C). Bright punctate staining in the cytoplasm remains in vps8 (WLX16-1A) after 1 h of chase.

文献二、Masamitsu Shimazu et al. A Family of Basic Amino Acid Transporters of the Vacuolar Membrane from Saccharomyces cerevisiae.

使用方法(FM 4-64 stain for vacuolar membraneSubcellular localization of Vba1p-GFP fusion protein in living S. cerevisiae cells was assessed using fluorescence microscopy. To stain vacuolar membranes, FM 4–64 was added to growing cultures to a final concentration of 5 μM. The cells were further cultured for 20 min and harvested. After washing, the cells were resuspended in fresh YPD media for 30 min to allow the dye to stain the vacuole via endocytosis.

FIG 2. Fluorescence microscopy of the transformant Δvba1/pVBA1GFP. A, GFP fluorescence; B, FM 4–64 fluorescence; C, Nomarski; D, merged image.

文献三、Sun Y et al. Scribble interacts with beta-catenin to localize synaptic vesicles to synapses. Mol Biol Cell. 2009 Jul;20(14):3390-400.

使用方法(FM 4-64 stain for presynaptic terminalsBriefly, 15 μM FM 4-64 was loaded for 30 s into presynatpic terminals using a hyperkalemic solution of 90 mM KCl in modified HBSS, where equimolar NaCl was omitted for final osmolality of 310 mOsm. Neurons were rinsed three times and maintained in HBSS without Ca2+ for imaging. ADVESAP-7 (1 mM) was added to quench the nonspecific signal. Three images were captured every 30 s to confirm that the positive FM 4-64 sites were stationary presynaptic terminals. Unloading was done using the hyperkalemic solution described above, and neurons were rinsed three times with NeuroBasal media for continued imaging.

Fig 3. Deficits in SV recycling after scribble knockdown. (A–F) Confocal images of 10 DIV neurons transfected with Syn-GFP and the indicated RNAi using Lipofectamine 2000 (<1% transfection efficiency). Neurons were loaded with FM 4-64, and three images were captured every 30 s to confirm that the positive FM 4-64 sites were stationary presynaptic terminals. Arrows indicate FM 4-64–positive sites on transfected axons. FM dyes were then unloaded to demonstrate specificity (A′–F′). (F′) The FM 4-64–positive site (arrowhead) not observed in dye-“load” image (E), but observed following dye-“unload” (E′) most likely represents a mobile FM 4-64–positive puncta on an untransfected neuron. The FM 4-64 cluster in the transfected neurons (arrow) is not observed after de-staining. The density (G) and size (H) of FM 4-64-positive puncta ± SE were reduced in cells expressing RNAi-3 compared with control. N = 17 cells and >85 FM-4-64 puncta from more than three separate cultures. *p < 0.05 using Student’s t test. Scale bar, 5 μm.

使用方法

  1. 储存液配制

于实验前,将冻干粉置于室温回温至少20min,加入无菌水或DMSO配制成10mM或其他浓度储存液,比如,对于1mg FM 4-64(Mw: 607.51)加入164μl DMSO,充分溶解后即得到10mM储存液,根据单次用量分装,≤-20℃冻存,避免反复冻融。

  1. 染色方法(仅作参考)

【注意】:

a)以下以爬片生长的贴壁活细胞的质膜染色为例,仅作参考。最佳的染色条件根据使用细胞特征进行调整。

b)由于FM 4-64快速被内吞,很有必要参考下方的温度和时间指导来减慢内吞,提高质膜的选择性标记和成像。内吞很可能在染色的10min内发生。

c)以下步骤推荐使用不含钙镁的HBSS(MS3505-500ML)。钙镁的存在明显会加速染料内吞,导致质膜选择性染色很弱。

2.1用提前冰浴的HBSS缓冲液来稀释储存液到所需的工作浓度比如8μM。

2.2 将盖玻片从培养基内取出,快速的浸入含足量FM 4-64的染色工作液,冰上孵育1min。质膜能被快速染色。

2.3 将盖玻片从染色工作液中取出,置于载玻片上封片,周围用石蜡密封,置于冰上,立即成像。

相关产品

货号 名称 规格
MX4014-1MG FM 1-43 (N-(3-Triethylammoniumpropyl)-4-(4-(dibutylamino)styryl)

pyridinium dibromide)

1mg
MX4015-1MG FM 2-10 (N-(3-Triethylammoniumpropyl)-4-(4-(diethylamino)styryl)

pyridinium dibromide)

1mg
MX4016-1MG FM 4-64 (N-(3-Triethylammoniumpropyl)-4-(6-(4-(Diethylamino) Phenyl) Hexatrienyl) Pyridinium Dibromide) 1mg
MX4017-5MG RH 237 (N-(4-Sulfobutyl)-4-(6-(4-(dibutylamino)phenyl)hexatrienyl)pyridinium,

inner salt)

5mg
MX4018-5MG RH 421 (N-(4-Sulfobutyl)-4-(4-(4- (dipentylamino)phenyl)butadienyl)pyridinium, inner salt) 5mg
MX4019-5MG RH 414 (N-(3-Triethylammoniumpropyl)-4-(4-(4-(diethylamino)phenyl)butadienyl)

pyridinium dibromide)

5mg
MX4020-1MG RH 795 1mg

 

FM 4-64FX (Fixable analog of FM 4-64) Synaptic vesicle 突触小泡

FM 4-64;FM 1-43;SynaptoRed C2;Lipophilic probe;Yeast vacuolar membranes 酵母液泡膜;Synaptic vesicle 突触小泡; 

产品名称

产品编号 规格

FM 4-64FX (Fixable analog of FM 4-64)

MX4024-100UG 100μg

FM 4-64FX (Fixable analog of FM 4-64) MX4024-200UG 2×100μg

产品描述

FM 4-64,英文全名:N-(3-Triethylammoniumpropyl)-4-(6-(4-(Diethylamino) Phenyl) Hexatrienyl) Pyridinium Dibromide,是一种亲脂的苯乙烯染料,用作一种活细胞探针示踪酵母整体膜内在化和运输到液泡。FM 4-64是一种灵敏的液泡动力学分析探针,检测一系列相关事件,包括有丝分裂中的分离结构形成、液泡分裂和融合事件,以及液泡蛋白质分拣蛋白突变体在不同阶段的液泡形态。FM 4-64具水溶性、对细胞无毒性,在水溶液中基本无荧光,一旦插入脂膜表面发出强烈的长波长红色荧光。FM 4-64与呈绿色荧光的FM 1-43(MX4014)在合适的滤片下能够区分开,允许双色实时观察膜的再循环。

FM 4-64FX是可固定的FM 4-64(MX4016)类似物,能承受基于醛类的固定剂(比如:多聚甲醛或戊二醛)。

产品特性

1)分子式:C35H45N4O6F9

2) 分子量:788.75

3) 纯度:≥90%(HPLC)

4) 外观:固体 

5) 溶解性:溶于水、DMSO

6) Ex/Em:565/744nm(in MeOH)(见附录I)

7) 化学结构式:

保存与运输方法

保存:2-8°C避光干燥保存,或置于-20℃避光干燥长期保存,至少1年有效。 

运输:室温运输。

注意事项

  • 荧光染料都存在淬灭的问题,保存和操作过程中注意避光。
  • FM®是Molecular Probe公司的注册商标。
  • 为了您的安全和健康,请穿实验服并戴一次性手套操作。

应用示例(来自文献,仅作参考)

文献1) Ayala-Lujan JL, Ruiz-Perez F. Adhesion of Enteroaggregative E. coli Strains to HEK293 Cells. Bio Protoc. 2018 Apr 20;8(8):e2802. doi: 10.21769/BioProtoc.2802. PMID: 34286021; PMCID: PMC8275309.

使用方法(EAEC binding assay in HEK293 cell suspension):

Binding assays are performed with cell suspensions in 15 ml conical tubes as follows:

  1. Stain approximately a total of2 x 106 cells in suspension by adding 300 µl of 5 µg/ml of FM 4-64FX and 4’,6’-diamidino-2-phenylindole (DAPI) for nucleus visualization for 5 min, followed by incubation with EAEC expressing GFP.

Note: DAPI can also be added at the end of the experiment as part of the anti-fade solution. HEK293 cell membranes are stained with FM 4-64FX before EAEC infection to avoid staining of bacterial membranes. If wish, FM 4-64FX staining can be skipped and proceed with the infection with fluorescent bacteria.

  1. Remove the excess of FM 4-64FX dye on cells by adding 10 ml of HBSS to the tubes and spinning cells down at 250 × g(~1,500 rpm) for 5 min.
  2. Mix 1 x 106FM 4-64FX-stained HEK293 cell derivatives expressing or not Muc1 with approximately 2 x 107 CFUs of GFP-EAEC strains to a multiplicity of infection (MOI) of 1:20 (cell:bacteria) in 1 ml of fresh DMEM medium. Incubate the cells for 1 h at 37 °C and 5% CO2.
  3. After 1 h incubation, wash the cells three times by adding 10 ml of HBSS buffer and by gently inverting the tube 2-3 times. Centrifuge the cells at 100 × g(~1,000 rpm) for 2 min to allow cell precipitation, but minimizing unbound bacteria sedimentation. Repeat HBSS-washes two more times.
  4. Remove the supernatant by aspiration using a disposable transfer pipette or a vacuum system (care should be taken not to disturb or aspirate the cells at the bottom of the tube; most unbound bacteria settle at later times and lower speeds).
  5. Fix cells by resuspending in 100 µl of PBS-5% formalin (g., 50 µl PBS + 50 formalin at 5% [v:v]). Examine the cells immediately or save at 4 °C to analyze it later, preferably during the first 48 h.
  6. Use 10 µl of cell suspension to prepare a smear on glass slides by extending the cell suspension with a coverslip. Let smear to dry out for about 10 min, then coat smear with a drop of anti-fade-DAPI.
  7. Analyze the slides by using a fluorescence microscope equipped with wavelength filters for blue (365/10 excitation/420LP emission), green (480/20 excitation/510LP emission), and red (535/30 excitation/580LP emission). You will see DNA stained in blue, cells membranes stained in red and bacteria in fluorescent green. A representative example of a binding assay with the prototype EAEC 042 strain and its isogenic fimbria mutant (042aafA) is illustrated in Figure 1.

Fig 1. Binding of EAEC to HEK293-Muc1 cells. B. HEK293 and HEK293-Muc1 cells were infected in suspension with EAEC strain 042 or with its isogenic fimbria mutant (042aafA), each expressing a GFP reporter and analyzed by fluorescence microscopy (40x). EAEC042 is in green, cell membranes are stained in red with FM 4-64FX, and DNA is stained in blue with DAPI.

文献2)Corrales RM, Vaselek S, Neish R, Berry L, Brunet CD, Crobu L, Kuk N, Mateos-Langerak J, Robinson DR, Volf P, Mottram JC, Sterkers Y, Bastien P. The kinesin of the flagellum attachment zone in Leishmania is required for cell morphogenesis, cell division and virulence in the mammalian host. PLoS Pathog. 2021 Jun 18;17(6):e1009666. doi: 10.1371/journal.ppat.1009666. PMID: 34143858; PMCID: PMC8244899.

使用方法(Uptake of FM4-64FX):

Microscopic analysis of FM4-64FX uptake was carried out as previously described [5] with slight modifications. Briefly, exponentially growing promastigotes (5×106 cells) were incubated 10 min in the dark at 27°C in complete HOMEM medium with 10μg/mL FM4-64FX. After incubation, 1 mL of cold PBS was added to stop up-take. Cells were fixed with cold 2% paraformaldehyde solution in PBS at 4°C during 5 min. Cells were resuspended in 100 μL PBS with 10μg/mL Hoechst 33342 and imaged immediately on poly-lysine coated slide.

Fig 2. Deletion of FAZ7B results in delayed incorporation of the membrane marker FM4-64FX into the flagellar pocket and altered flagellar pocket segregation. (A) Microphotographs representative of the flagellar pocket labelling with FM4-64FX (red) in the parental and FAZ7B KO cell lines. DNA was stained with DAPI (blue). Scale bar: 5 μm. (B) Quantification of FM4-64FX labelling in the flagellar pocket in 1N1K parental and FAZ7B KO cell lines; mean values ± SD of three independent experiments. ** p < 0.01 (Student’s t-test).

文献三、Zhang F, Sun Y, Pei W, Jain A, Sun R, Cao Y, Wu X, Jiang T, Zhang L, Fan X, Chen A, Shen Q, Xu G, Sun S. Involvement of OsPht1;4 in phosphate acquisition and mobilization facilitates embryo development in rice. Plant J. 2015 May;82(4):556-69. doi: 10.1111/tpj.12804. PMID: 25702710.

使用方法(plasma membrane localization):Isolation of rice protoplast from culms of etiolated seedlings and subsequent transfection were performed as described previously. For plasma membrane localization, a 5 μg ml1 solution of the membrane-selective fluorescent vital dye FM4-64FX was used to stain the transfected protoplasts. Protoplasts were observed under a 60× objective. The fluorescence of FM4-64FX and GFP in cells was analyzed using a 543 nm helium/neon laser and a 488 nm argon laser, respectively, using an LSM410 confocal laser scanning microscope.

Fig 3. Subcellular localization of OsPT4. Confocal laser scanning microscopy images of rice protoplasts transiently expressing 35S::EGFP (left panels) or 35S:: OsPT4:: EGFP (right panels). Scale bars = 5 μm.(a) Bright-field images.(b) Confocal images of protoplasts under GFP channel only.(c) FM4-64FX dye-induced red fluorescence showing the position of the plasma membrane.(d) Merged images of GFP fluorescence (green) and FM4-64FX fluorescence (red).

使用方法

  1. 储存液配制

于实验前,将冻干粉置于室温回温至少20min,加入无菌水或DMSO配制成5mM或其他浓度储存液,比如,对于100μg FM 4-64FX(Mw: 788.75)加入25.3μl DMSO,充分溶解后即得到5mM储存液,根据单次用量分装。需注意,FM 4-64FX的储存液相对于FM4-64来说不稳定,请置于≤-20℃冻存,于2周内使用,避免反复冻融。

  1. 染色方法(仅作参考)

【注意】:

a)以下以爬片生长的贴壁活细胞的质膜染色为例,仅作参考。最佳的染色条件根据使用细胞特征进行调整。

b)由于FM 4-64快速被内吞,很有必要参考下方的温度和时间指导来减慢内吞,提高质膜的选择性标记和成像。内吞很可能在染色的10min内发生。

c)以下步骤推荐使用不含钙镁的HBSS(MS3505-500ML)。钙镁的存在明显会加速染料内吞,导致质膜选择性染色很弱。

相关产品

货号 名称 规格
MX4014-1MG FM 1-43 (N-(3-Triethylammoniumpropyl)-4-(4-(dibutylamino)styryl)

pyridinium dibromide)

1mg
MX4015-1MG FM 2-10 (N-(3-Triethylammoniumpropyl)-4-(4-(diethylamino)styryl)

pyridinium dibromide)

1mg
MX4016-1MG FM 4-64 (N-(3-Triethylammoniumpropyl)-4-(6-(4-(Diethylamino) Phenyl) Hexatrienyl) Pyridinium Dibromide) 1mg
MX4017-5MG RH 237 (N-(4-Sulfobutyl)-4-(6-(4-(dibutylamino)phenyl)hexatrienyl)pyridinium,

inner salt)

5mg
MX4018-5MG RH 421 (N-(4-Sulfobutyl)-4-(4-(4- (dipentylamino)phenyl)butadienyl)pyridinium, inner salt) 5mg
MX4019-5MG RH 414 (N-(3-Triethylammoniumpropyl)-4-(4-(4-(diethylamino)phenyl)butadienyl)

pyridinium dibromide)

5mg
MX4020-1MG RH 795 1mg
MX4024-100UG FM 4-64FX (Fixable analog of FM 4-64) 100μg

 

FM 4-64FX (Fixable analog of FM 4-64) FM 4-64 FM 1-43 SynaptoRed C2

FM 4-64;FM 1-43;SynaptoRed C2;Lipophilic probe;Yeast vacuolar membranes 酵母液泡膜;Synaptic vesicle 突触小泡; 

产品名称

产品编号 规格

FM 4-64FX (Fixable analog of FM 4-64)

MX4024-100UG 100μg

FM 4-64FX (Fixable analog of FM 4-64) MX4024-200UG 2×100μg

产品描述

FM 4-64,英文全名:N-(3-Triethylammoniumpropyl)-4-(6-(4-(Diethylamino) Phenyl) Hexatrienyl) Pyridinium Dibromide,是一种亲脂的苯乙烯染料,用作一种活细胞探针示踪酵母整体膜内在化和运输到液泡。FM 4-64是一种灵敏的液泡动力学分析探针,检测一系列相关事件,包括有丝分裂中的分离结构形成、液泡分裂和融合事件,以及液泡蛋白质分拣蛋白突变体在不同阶段的液泡形态。FM 4-64具水溶性、对细胞无毒性,在水溶液中基本无荧光,一旦插入脂膜表面发出强烈的长波长红色荧光。FM 4-64与呈绿色荧光的FM 1-43(MX4014)在合适的滤片下能够区分开,允许双色实时观察膜的再循环。

FM 4-64FX是可固定的FM 4-64(MX4016)类似物,能承受基于醛类的固定剂(比如:多聚甲醛或戊二醛)。

产品特性

1)分子式:C35H45N4O6F9

2) 分子量:788.75

3) 纯度:≥90%(HPLC)

4) 外观:固体 

5) 溶解性:溶于水、DMSO

6) Ex/Em:565/744nm(in MeOH)(见附录I)

7) 化学结构式:

保存与运输方法

保存:2-8°C避光干燥保存,或置于-20℃避光干燥长期保存,至少1年有效。 

运输:室温运输。

注意事项

  • 荧光染料都存在淬灭的问题,保存和操作过程中注意避光。
  • FM®是Molecular Probe公司的注册商标。
  • 为了您的安全和健康,请穿实验服并戴一次性手套操作。

应用示例(来自文献,仅作参考)

文献1) Ayala-Lujan JL, Ruiz-Perez F. Adhesion of Enteroaggregative E. coli Strains to HEK293 Cells. Bio Protoc. 2018 Apr 20;8(8):e2802. doi: 10.21769/BioProtoc.2802. PMID: 34286021; PMCID: PMC8275309.

使用方法(EAEC binding assay in HEK293 cell suspension):

Binding assays are performed with cell suspensions in 15 ml conical tubes as follows:

  1. Stain approximately a total of2 x 106 cells in suspension by adding 300 µl of 5 µg/ml of FM 4-64FX and 4’,6’-diamidino-2-phenylindole (DAPI) for nucleus visualization for 5 min, followed by incubation with EAEC expressing GFP.

Note: DAPI can also be added at the end of the experiment as part of the anti-fade solution. HEK293 cell membranes are stained with FM 4-64FX before EAEC infection to avoid staining of bacterial membranes. If wish, FM 4-64FX staining can be skipped and proceed with the infection with fluorescent bacteria.

  1. Remove the excess of FM 4-64FX dye on cells by adding 10 ml of HBSS to the tubes and spinning cells down at 250 × g(~1,500 rpm) for 5 min.
  2. Mix 1 x 106FM 4-64FX-stained HEK293 cell derivatives expressing or not Muc1 with approximately 2 x 107 CFUs of GFP-EAEC strains to a multiplicity of infection (MOI) of 1:20 (cell:bacteria) in 1 ml of fresh DMEM medium. Incubate the cells for 1 h at 37 °C and 5% CO2.
  3. After 1 h incubation, wash the cells three times by adding 10 ml of HBSS buffer and by gently inverting the tube 2-3 times. Centrifuge the cells at 100 × g(~1,000 rpm) for 2 min to allow cell precipitation, but minimizing unbound bacteria sedimentation. Repeat HBSS-washes two more times.
  4. Remove the supernatant by aspiration using a disposable transfer pipette or a vacuum system (care should be taken not to disturb or aspirate the cells at the bottom of the tube; most unbound bacteria settle at later times and lower speeds).
  5. Fix cells by resuspending in 100 µl of PBS-5% formalin (g., 50 µl PBS + 50 formalin at 5% [v:v]). Examine the cells immediately or save at 4 °C to analyze it later, preferably during the first 48 h.
  6. Use 10 µl of cell suspension to prepare a smear on glass slides by extending the cell suspension with a coverslip. Let smear to dry out for about 10 min, then coat smear with a drop of anti-fade-DAPI.
  7. Analyze the slides by using a fluorescence microscope equipped with wavelength filters for blue (365/10 excitation/420LP emission), green (480/20 excitation/510LP emission), and red (535/30 excitation/580LP emission). You will see DNA stained in blue, cells membranes stained in red and bacteria in fluorescent green. A representative example of a binding assay with the prototype EAEC 042 strain and its isogenic fimbria mutant (042aafA) is illustrated in Figure 1.

Fig 1. Binding of EAEC to HEK293-Muc1 cells. B. HEK293 and HEK293-Muc1 cells were infected in suspension with EAEC strain 042 or with its isogenic fimbria mutant (042aafA), each expressing a GFP reporter and analyzed by fluorescence microscopy (40x). EAEC042 is in green, cell membranes are stained in red with FM 4-64FX, and DNA is stained in blue with DAPI.

文献2)Corrales RM, Vaselek S, Neish R, Berry L, Brunet CD, Crobu L, Kuk N, Mateos-Langerak J, Robinson DR, Volf P, Mottram JC, Sterkers Y, Bastien P. The kinesin of the flagellum attachment zone in Leishmania is required for cell morphogenesis, cell division and virulence in the mammalian host. PLoS Pathog. 2021 Jun 18;17(6):e1009666. doi: 10.1371/journal.ppat.1009666. PMID: 34143858; PMCID: PMC8244899.

使用方法(Uptake of FM4-64FX):

Microscopic analysis of FM4-64FX uptake was carried out as previously described [5] with slight modifications. Briefly, exponentially growing promastigotes (5×106 cells) were incubated 10 min in the dark at 27°C in complete HOMEM medium with 10μg/mL FM4-64FX. After incubation, 1 mL of cold PBS was added to stop up-take. Cells were fixed with cold 2% paraformaldehyde solution in PBS at 4°C during 5 min. Cells were resuspended in 100 μL PBS with 10μg/mL Hoechst 33342 and imaged immediately on poly-lysine coated slide.

Fig 2. Deletion of FAZ7B results in delayed incorporation of the membrane marker FM4-64FX into the flagellar pocket and altered flagellar pocket segregation. (A) Microphotographs representative of the flagellar pocket labelling with FM4-64FX (red) in the parental and FAZ7B KO cell lines. DNA was stained with DAPI (blue). Scale bar: 5 μm. (B) Quantification of FM4-64FX labelling in the flagellar pocket in 1N1K parental and FAZ7B KO cell lines; mean values ± SD of three independent experiments. ** p < 0.01 (Student’s t-test).

文献三、Zhang F, Sun Y, Pei W, Jain A, Sun R, Cao Y, Wu X, Jiang T, Zhang L, Fan X, Chen A, Shen Q, Xu G, Sun S. Involvement of OsPht1;4 in phosphate acquisition and mobilization facilitates embryo development in rice. Plant J. 2015 May;82(4):556-69. doi: 10.1111/tpj.12804. PMID: 25702710.

使用方法(plasma membrane localization):Isolation of rice protoplast from culms of etiolated seedlings and subsequent transfection were performed as described previously. For plasma membrane localization, a 5 μg ml1 solution of the membrane-selective fluorescent vital dye FM4-64FX was used to stain the transfected protoplasts. Protoplasts were observed under a 60× objective. The fluorescence of FM4-64FX and GFP in cells was analyzed using a 543 nm helium/neon laser and a 488 nm argon laser, respectively, using an LSM410 confocal laser scanning microscope.

 

Fig 3. Subcellular localization of OsPT4. Confocal laser scanning microscopy images of rice protoplasts transiently expressing 35S::EGFP (left panels) or 35S:: OsPT4:: EGFP (right panels). Scale bars = 5 μm.(a) Bright-field images.(b) Confocal images of protoplasts under GFP channel only.(c) FM4-64FX dye-induced red fluorescence showing the position of the plasma membrane.(d) Merged images of GFP fluorescence (green) and FM4-64FX fluorescence (red).

使用方法

  1. 储存液配制

于实验前,将冻干粉置于室温回温至少20min,加入无菌水或DMSO配制成5mM或其他浓度储存液,比如,对于100μg FM 4-64FX(Mw: 788.75)加入25.3μl DMSO,充分溶解后即得到5mM储存液,根据单次用量分装。需注意,FM 4-64FX的储存液相对于FM4-64来说不稳定,请置于≤-20℃冻存,于2周内使用,避免反复冻融。

  1. 染色方法(仅作参考)

【注意】:

a)以下以爬片生长的贴壁活细胞的质膜染色为例,仅作参考。最佳的染色条件根据使用细胞特征进行调整。

b)由于FM 4-64快速被内吞,很有必要参考下方的温度和时间指导来减慢内吞,提高质膜的选择性标记和成像。内吞很可能在染色的10min内发生。

c)以下步骤推荐使用不含钙镁的HBSS(MS3505-500ML)。钙镁的存在明显会加速染料内吞,导致质膜选择性染色很弱。

相关产品

货号 名称 规格
MX4014-1MG FM 1-43 (N-(3-Triethylammoniumpropyl)-4-(4-(dibutylamino)styryl)

pyridinium dibromide)

1mg
MX4015-1MG FM 2-10 (N-(3-Triethylammoniumpropyl)-4-(4-(diethylamino)styryl)

pyridinium dibromide)

1mg
MX4016-1MG FM 4-64 (N-(3-Triethylammoniumpropyl)-4-(6-(4-(Diethylamino) Phenyl) Hexatrienyl) Pyridinium Dibromide) 1mg
MX4017-5MG RH 237 (N-(4-Sulfobutyl)-4-(6-(4-(dibutylamino)phenyl)hexatrienyl)pyridinium,

inner salt)

5mg
MX4018-5MG RH 421 (N-(4-Sulfobutyl)-4-(4-(4- (dipentylamino)phenyl)butadienyl)pyridinium, inner salt) 5mg
MX4019-5MG RH 414 (N-(3-Triethylammoniumpropyl)-4-(4-(4-(diethylamino)phenyl)butadienyl)

pyridinium dibromide)

5mg
MX4020-1MG RH 795 1mg
MX4024-100UG FM 4-64FX (Fixable analog of FM 4-64) 100μg

 

FM 4-64 (N-(3-Triethylammoniumpropyl)-4-(6-(4-(Diethylamino) Phenyl) Hexatrienyl) Pyridinium Dibromide)

FM 4-64;FM 1-43;SynaptoRed C2;Lipophilic probe;Yeast vacuolar membranes 酵母液泡膜;Synaptic vesicle 突触小泡; 

订购信息:

产品名称

产品编号 规格
FM 4-64 (N-(3-Triethylammoniumpropyl)-4-(6-(4-(Diethylamino) Phenyl) Hexatrienyl) Pyridinium Dibromide)

MX4016-100UG

100μg
MX4016-200UG 2×100μg

MX4016-1MG 1mg

产品描述

FM 4-64,英文全名:N-(3-Triethylammoniumpropyl)-4-(6-(4-(Diethylamino) Phenyl) Hexatrienyl) Pyridinium Dibromide,是一种亲脂的苯乙烯染料,用作一种活细胞探针示踪酵母整体膜内在化和运输到液泡。FM 4-64是一种灵敏的液泡动力学分析探针,检测一系列相关事件,包括有丝分裂中的分离结构形成、液泡分裂和融合事件,以及液泡蛋白质分拣蛋白突变体在不同阶段的液泡形态。

FM 4-64具水溶性、对细胞无毒性,在水溶液中基本无荧光,一旦插入脂膜表面发出强的红色荧光(Ex/Em= 558/734nm)。FM 4-64与呈绿色荧光的FM 1-43(MX4014)在合适的滤片能够区分开,允许双色实时观察膜的再循环。

产品特性

1)同义名:N-(3-Triethylammoniumpropyl)-4-(6-(4-(diethylamino)phenyl)hexatrienyl)pyridinium dibromide

2)分子式:C30H45Br2N3

3) 分子量:607.51

4) 纯度:≥90%(HPLC)

5) 外观:紫色固体 

6) 溶解性:溶于水、DMSO

7) Ex/Em:558/734nm(与膜结合)

8) 溶解性:溶于水

9) 化学结构式:

保存与运输方法

保存:-20°C避光干燥保存,至少1年有效。 

运输:冰袋运输。

注意事项

  • 荧光染料都存在淬灭的问题,保存和操作过程中注意避光。
  • FM®是Molecular Probe公司的注册商标。
  • 为了您的安全和健康,请穿实验服并戴一次性手套操作。

应用示例(来自文献,仅作参考)

文献一、Luo Wj et al. Novel Genes Involved in Endosomal Traffic in Yeast Revealed by Suppression of a Targeting-defective Plasma Membrane ATPase Mutant. J Cell Biol. 1997 Aug 25;138(4):731-46. PMID: 9265642

使用方法(FM 4-64 Endocytosis):For FM 4-64 internalization studies, cells were grown to mid-log phase in YPD. After resuspension in fresh YPD at 20 OD600/ml, 20 μM FM 4-64 was added for 5 min at 30°C. Cells were washed, and incubation continued at 30°C for 1 h. FM 4-64 fluorescence was observed with rhodamine fluorescence filter sets. 【使用FM 4-64的原理在于:FM 4-64是批量质膜内在化的一种标记探针,从细胞表面到液泡膜的内吞示踪的转运以一种时间、温度和能量依赖性的方式进行。】

Fig 1. Visualization of endocytosis in sop mutants by FM 4-64 staining. Exponentially growing wild-type cells and sop mutants were stained with FM 4-64 for 5 min at 30°C, washed, and incubated in fresh YPD for 1 h before visualization and photography. Vacuolar membrane staining is seen in wild-type cells (L3852). In vps36 (WLX12-7C), a class E vps mutant, FM 4-64 dye is accumulated in a prevacuolar compartment. A similar accumulation of dye as a spot near the vacuole is seen in vps38 (WLX14-10A) and vps13 (WLX15-4C). Bright punctate staining in the cytoplasm remains in vps8 (WLX16-1A) after 1 h of chase.

文献二、Masamitsu Shimazu et al. A Family of Basic Amino Acid Transporters of the Vacuolar Membrane from Saccharomyces cerevisiae.

使用方法(FM 4-64 stain for vacuolar membraneSubcellular localization of Vba1p-GFP fusion protein in living S. cerevisiae cells was assessed using fluorescence microscopy. To stain vacuolar membranes, FM 4–64 was added to growing cultures to a final concentration of 5 μM. The cells were further cultured for 20 min and harvested. After washing, the cells were resuspended in fresh YPD media for 30 min to allow the dye to stain the vacuole via endocytosis.

FIG 2. Fluorescence microscopy of the transformant Δvba1/pVBA1GFP. A, GFP fluorescence; B, FM 4–64 fluorescence; C, Nomarski; D, merged image.

文献三、Sun Y et al. Scribble interacts with beta-catenin to localize synaptic vesicles to synapses. Mol Biol Cell. 2009 Jul;20(14):3390-400.

使用方法(FM 4-64 stain for presynaptic terminalsBriefly, 15 μM FM 4-64 was loaded for 30 s into presynatpic terminals using a hyperkalemic solution of 90 mM KCl in modified HBSS, where equimolar NaCl was omitted for final osmolality of 310 mOsm. Neurons were rinsed three times and maintained in HBSS without Ca2+ for imaging. ADVESAP-7 (1 mM) was added to quench the nonspecific signal. Three images were captured every 30 s to confirm that the positive FM 4-64 sites were stationary presynaptic terminals. Unloading was done using the hyperkalemic solution described above, and neurons were rinsed three times with NeuroBasal media for continued imaging.

Fig 3. Deficits in SV recycling after scribble knockdown. (A–F) Confocal images of 10 DIV neurons transfected with Syn-GFP and the indicated RNAi using Lipofectamine 2000 (<1% transfection efficiency). Neurons were loaded with FM 4-64, and three images were captured every 30 s to confirm that the positive FM 4-64 sites were stationary presynaptic terminals. Arrows indicate FM 4-64–positive sites on transfected axons. FM dyes were then unloaded to demonstrate specificity (A′–F′). (F′) The FM 4-64–positive site (arrowhead) not observed in dye-“load” image (E), but observed following dye-“unload” (E′) most likely represents a mobile FM 4-64–positive puncta on an untransfected neuron. The FM 4-64 cluster in the transfected neurons (arrow) is not observed after de-staining. The density (G) and size (H) of FM 4-64-positive puncta ± SE were reduced in cells expressing RNAi-3 compared with control. N = 17 cells and >85 FM-4-64 puncta from more than three separate cultures. *p < 0.05 using Student’s t test. Scale bar, 5 μm.

使用方法

  1. 储存液配制

于实验前,将冻干粉置于室温回温至少20min,加入无菌水或DMSO配制成10mM或其他浓度储存液,比如,对于1mg FM 4-64(Mw: 607.51)加入164μl DMSO,充分溶解后即得到10mM储存液,根据单次用量分装,≤-20℃冻存,避免反复冻融。

  1. 染色方法(仅作参考)

【注意】:

a)以下以爬片生长的贴壁活细胞的质膜染色为例,仅作参考。最佳的染色条件根据使用细胞特征进行调整。

b)由于FM 4-64快速被内吞,很有必要参考下方的温度和时间指导来减慢内吞,提高质膜的选择性标记和成像。内吞很可能在染色的10min内发生。

c)以下步骤推荐使用不含钙镁的HBSS(MS3505-500ML)。钙镁的存在明显会加速染料内吞,导致质膜选择性染色很弱。

2.1用提前冰浴的HBSS缓冲液来稀释储存液到所需的工作浓度比如8μM。

2.2 将盖玻片从培养基内取出,快速的浸入含足量FM 4-64的染色工作液,冰上孵育1min。质膜能被快速染色。

2.3 将盖玻片从染色工作液中取出,置于载玻片上封片,周围用石蜡密封,置于冰上,立即成像。

相关产品

货号 名称 规格
MX4014-1MG FM 1-43 (N-(3-Triethylammoniumpropyl)-4-(4-(dibutylamino)styryl)

pyridinium dibromide)

1mg
MX4015-1MG FM 2-10 (N-(3-Triethylammoniumpropyl)-4-(4-(diethylamino)styryl)

pyridinium dibromide)

1mg
MX4016-1MG FM 4-64 (N-(3-Triethylammoniumpropyl)-4-(6-(4-(Diethylamino) Phenyl) Hexatrienyl) Pyridinium Dibromide) 1mg
MX4017-5MG RH 237 (N-(4-Sulfobutyl)-4-(6-(4-(dibutylamino)phenyl)hexatrienyl)pyridinium,

inner salt)

5mg
MX4018-5MG RH 421 (N-(4-Sulfobutyl)-4-(4-(4- (dipentylamino)phenyl)butadienyl)pyridinium, inner salt) 5mg
MX4019-5MG RH 414 (N-(3-Triethylammoniumpropyl)-4-(4-(4-(diethylamino)phenyl)butadienyl)

pyridinium dibromide)

5mg
MX4020-1MG RH 795 1mg

 

FM 4-64 (N-(3-Triethylammoniumpropyl)-4-(6-(4-(Diethylamino) Phenyl) Hexatrienyl) Pyridinium Dibromide)

FM 4-64;FM 1-43;SynaptoRed C2;Lipophilic probe;Yeast vacuolar membranes 酵母液泡膜;Synaptic vesicle 突触小泡; 

产品名称

产品编号 规格
FM 4-64 (N-(3-Triethylammoniumpropyl)-4-(6-(4-(Diethylamino) Phenyl) Hexatrienyl) Pyridinium Dibromide)

MX4016-100UG

100μg
MX4016-200UG 2×100μg

MX4016-1MG 1mg

 FM 4-64,英文全名:N-(3-Triethylammoniumpropyl)-4-(6-(4-(Diethylamino) Phenyl) Hexatrienyl) Pyridinium Dibromide,是一种亲脂的苯乙烯染料,用作一种活细胞探针示踪酵母整体膜内在化和运输到液泡。FM 4-64是一种灵敏的液泡动力学分析探针,检测一系列相关事件,包括有丝分裂中的分离结构形成、液泡分裂和融合事件,以及液泡蛋白质分拣蛋白突变体在不同阶段的液泡形态。

FM 4-64具水溶性、对细胞无毒性,在水溶液中基本无荧光,一旦插入脂膜表面发出强的红色荧光(Ex/Em= 558/734nm)。FM 4-64与呈绿色荧光的FM 1-43(MX4014)在合适的滤片能够区分开,允许双色实时观察膜的再循环。

产品特性

1)同义名:N-(3-Triethylammoniumpropyl)-4-(6-(4-(diethylamino)phenyl)hexatrienyl)pyridinium dibromide

2)分子式:C30H45Br2N3

3) 分子量:607.51

4) 纯度:≥90%(HPLC)

5) 外观:紫色固体 

6) 溶解性:溶于水、DMSO

7) Ex/Em:558/734nm(与膜结合)

8) 溶解性:溶于水

9) 化学结构式:

保存与运输方法

保存:-20°C避光干燥保存,至少1年有效。 

运输:冰袋运输。

注意事项

  • 荧光染料都存在淬灭的问题,保存和操作过程中注意避光。
  • FM®是Molecular Probe公司的注册商标。
  • 为了您的安全和健康,请穿实验服并戴一次性手套操作。

应用示例(来自文献,仅作参考)

文献一、Luo Wj et al. Novel Genes Involved in Endosomal Traffic in Yeast Revealed by Suppression of a Targeting-defective Plasma Membrane ATPase Mutant. J Cell Biol. 1997 Aug 25;138(4):731-46. PMID: 9265642

使用方法(FM 4-64 Endocytosis):For FM 4-64 internalization studies, cells were grown to mid-log phase in YPD. After resuspension in fresh YPD at 20 OD600/ml, 20 μM FM 4-64 was added for 5 min at 30°C. Cells were washed, and incubation continued at 30°C for 1 h. FM 4-64 fluorescence was observed with rhodamine fluorescence filter sets. 【使用FM 4-64的原理在于:FM 4-64是批量质膜内在化的一种标记探针,从细胞表面到液泡膜的内吞示踪的转运以一种时间、温度和能量依赖性的方式进行。】

Fig 1. Visualization of endocytosis in sop mutants by FM 4-64 staining. Exponentially growing wild-type cells and sop mutants were stained with FM 4-64 for 5 min at 30°C, washed, and incubated in fresh YPD for 1 h before visualization and photography. Vacuolar membrane staining is seen in wild-type cells (L3852). In vps36 (WLX12-7C), a class E vps mutant, FM 4-64 dye is accumulated in a prevacuolar compartment. A similar accumulation of dye as a spot near the vacuole is seen in vps38 (WLX14-10A) and vps13 (WLX15-4C). Bright punctate staining in the cytoplasm remains in vps8 (WLX16-1A) after 1 h of chase.

文献二、Masamitsu Shimazu et al. A Family of Basic Amino Acid Transporters of the Vacuolar Membrane from Saccharomyces cerevisiae.

使用方法(FM 4-64 stain for vacuolar membraneSubcellular localization of Vba1p-GFP fusion protein in living S. cerevisiae cells was assessed using fluorescence microscopy. To stain vacuolar membranes, FM 4–64 was added to growing cultures to a final concentration of 5 μM. The cells were further cultured for 20 min and harvested. After washing, the cells were resuspended in fresh YPD media for 30 min to allow the dye to stain the vacuole via endocytosis.

FIG 2. Fluorescence microscopy of the transformant Δvba1/pVBA1GFP. A, GFP fluorescence; B, FM 4–64 fluorescence; C, Nomarski; D, merged image.

文献三、Sun Y et al. Scribble interacts with beta-catenin to localize synaptic vesicles to synapses. Mol Biol Cell. 2009 Jul;20(14):3390-400.

使用方法(FM 4-64 stain for presynaptic terminalsBriefly, 15 μM FM 4-64 was loaded for 30 s into presynatpic terminals using a hyperkalemic solution of 90 mM KCl in modified HBSS, where equimolar NaCl was omitted for final osmolality of 310 mOsm. Neurons were rinsed three times and maintained in HBSS without Ca2+ for imaging. ADVESAP-7 (1 mM) was added to quench the nonspecific signal. Three images were captured every 30 s to confirm that the positive FM 4-64 sites were stationary presynaptic terminals. Unloading was done using the hyperkalemic solution described above, and neurons were rinsed three times with NeuroBasal media for continued imaging.

Fig 3. Deficits in SV recycling after scribble knockdown. (A–F) Confocal images of 10 DIV neurons transfected with Syn-GFP and the indicated RNAi using Lipofectamine 2000 (<1% transfection efficiency). Neurons were loaded with FM 4-64, and three images were captured every 30 s to confirm that the positive FM 4-64 sites were stationary presynaptic terminals. Arrows indicate FM 4-64–positive sites on transfected axons. FM dyes were then unloaded to demonstrate specificity (A′–F′). (F′) The FM 4-64–positive site (arrowhead) not observed in dye-“load” image (E), but observed following dye-“unload” (E′) most likely represents a mobile FM 4-64–positive puncta on an untransfected neuron. The FM 4-64 cluster in the transfected neurons (arrow) is not observed after de-staining. The density (G) and size (H) of FM 4-64-positive puncta ± SE were reduced in cells expressing RNAi-3 compared with control. N = 17 cells and >85 FM-4-64 puncta from more than three separate cultures. *p < 0.05 using Student’s t test. Scale bar, 5 μm.

使用方法

  1. 储存液配制

于实验前,将冻干粉置于室温回温至少20min,加入无菌水或DMSO配制成10mM或其他浓度储存液,比如,对于1mg FM 4-64(Mw: 607.51)加入164μl DMSO,充分溶解后即得到10mM储存液,根据单次用量分装,≤-20℃冻存,避免反复冻融。

  1. 染色方法(仅作参考)

【注意】:

a)以下以爬片生长的贴壁活细胞的质膜染色为例,仅作参考。最佳的染色条件根据使用细胞特征进行调整。

b)由于FM 4-64快速被内吞,很有必要参考下方的温度和时间指导来减慢内吞,提高质膜的选择性标记和成像。内吞很可能在染色的10min内发生。

c)以下步骤推荐使用不含钙镁的HBSS(MS3505-500ML)。钙镁的存在明显会加速染料内吞,导致质膜选择性染色很弱。

2.1用提前冰浴的HBSS缓冲液来稀释储存液到所需的工作浓度比如8μM。

2.2 将盖玻片从培养基内取出,快速的浸入含足量FM 4-64的染色工作液,冰上孵育1min。质膜能被快速染色。

2.3 将盖玻片从染色工作液中取出,置于载玻片上封片,周围用石蜡密封,置于冰上,立即成像。

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