• Compare Products

  • Table of Contents

Customer Testimonials

Peer Reviews from Real Labs

Browse peer-submitted results linked to specific products—ratings, images, and practical notes included. Contribute your own result to strengthen the evidence base and claim rewards after verification.

Share Your Review Browse Reviews ↓

Video Interviews

See real workflows and decision points—what researchers tried, what worked, and why. Share your story in a short interview and claim rewards!

Get Interview Rewards

Filter by category, reactivity, and host to find the most relevant peer results.

Western blot of OCI-LY1 cells treated with SPHINX31 showed stable GAPDH expression with clear bands and clean background, demonstrating high specificity of A00227-1.

Excellent, submitted by on
SKU A00227-1
Application Western Blot
Sample human OCI-LY1 cellls
Sample Processing Description Cell samples were lysed by sonication in RIPA buffer containing protease and phosphatase inhibitors, followed by centrifugation for 10 minutes. The supernatant was mixed with loading buffer at a 4:1 ratio, boiled for 10 minutes, and 15 μL of protein was loaded per well.
Other Reagents 5% non-fat milk
Primary Antibody GAPDH Antibody Picoband®
Primary Incubation 1:5000, overnight at 4 ℃
Secondary Antibody HRP Conjugated AffiniPure Goat Anti-Rabbit IgG (H+L)
Secondary Incubation 1 h in RT
Detection Substrate: ECL substrate, Image system:ChemiDoc MP
Results Summary In OCI-LY1 cells treated with different concentrations of SPHINX31 for 24 h, GAPDH expression remained stable with no significant differences, showing clear bands and a clean background without nonspecific signals.

The Anti-GAPDH antibody (A00227-1) demonstrated high sensitivity and clear WB bands in mouse intestinal tissue, offering excellent cost-effectiveness and reliability, and is highly recommended for use.

Excellent, submitted by on
SKU A00227-1
Application Western Blot
Sample mouse intesinal tissue
Sample Processing Description Mouse colon tissue was lysed in RIPA buffer containing a protease inhibitor cocktail. Protein concentration was determined using the Pierce™ BCA Protein Assay Kit, and equal amounts of protein were loaded after boiling denaturation.
Other Reagents 5% non-fat milk
Primary Antibody GAPDH Antibody Picoband®
Primary Incubation 1:1000, overnight at 4 ℃
Secondary Antibody goat anti rabbit secondary antibodies
Secondary Incubation 1:5000, 1 h in RT
Detection Substrate: ECL substrate, Image system:ChemiDoc MP
Results Summary This antibody is highly sensitive, produces clear WB bands, is reusable, offers excellent cost-effectiveness, and demonstrates a clear advantage over similar international products, making it highly recommended for use.

Western blot analysis of Drosophila ovaries from three fly strains showed comparable Phb2 protein levels across all samples. Consistent bands at 30 kDa confirmed expected molecular weight, with β-Actin used as a loading control to verify equal protein loa

Excellent, submitted by on
SKU DZ41317
Application Western Blot
Sample Drosophila Ovaries
Sample Processing Description Dissection, Homogenization, Sample boiling in 1X Lamelli, SDS-PAGE, Standard Western Blotting
Primary Antibody Anti-Fruit fly Phb2 Antibody
Primary Incubation 1:1000 in 5% BSA and 0.1% PBST. Either 2 hours at RT or Overnight at 4 Degrees
Secondary Antibody 1:10000 Anti-rabbit/mouse IgG horseradish peroxidase-conjugated
Secondary Incubation 1 hour at room temperature
Detection Biorad ChemiDoc
Results Summary Western blot analysis of Drosophila ovaries from three fly strains showed comparable Phb2 protein levels across all samples. Consistent bands at 30 kDa confirmed expected molecular weight, with β-Actin used as a loading control to verify equal protein loading.

Drosophila fatbody showed good staining of Phb2.

Excellent, submitted by on
SKU DZ41317
Application Immunofluorescence
Sample Drosophila Fat body and Ovaries
Sample Processing Description Dissection, Fixation in 4%PFA, Permeabilization in PBS-TX, Blocking, Primary, Washes,Secondary, Washes,Nuclei Staining, Slide Preparation
Primary Antibody Anti-Fruit fly Phb2 Antibody
Primary Incubation 1:200 in 2%BSA and 0.5% PBS-TX for Ovaries, 1:100 in 2%BSA and 0.1% PBS-TX for Fat body
Secondary Antibody 1:1000 Anti-Rabbit/Mouse Alexa Fluor 488/Cy3/Cy5
Secondary Incubation 1 hour at room temperature
Detection Zeiss LSM 900 Confocal Microscope with Airyscan 2
Results Summary Drosophila fatbody showed good staining of Phb2.

This was only optimization experiment and still needs validation through necessary experiments.

Excellent, submitted by on
SKU DZ41315
Application Immunofluorescence
Sample Drosophila Fat body and Ovaries
Sample Processing Description Dissection, Fixation in 4%PFA, Permeabilization in PBS-TX, Blocking, Primary, Washes,Secondary, Washes,Nuclei Staining, Slide Preparation
Primary Antibody Anti-Fruit fly Marf Antibody
Primary Incubation 1:200 in 2%BSA and 0.5% PBS-TX for Ovaries, 1:100 in 2%BSA and 0.1% PBS-TX for Fat body
Secondary Antibody 1:1000 Anti-Rabbit/Mouse Alexa Fluor 488/Cy3/Cy5
Secondary Incubation 1 hour at room temperature
Detection Zeiss LSM 900 Confocal Microscope with Airyscan 2
Results Summary This was only optimization experiment and still needs validation through necessary experiments.

Antibody Optimized and validated

Excellent, submitted by on
SKU DZ41314
Application Western Blot
Sample Drosophila Ovaries
Sample Processing Description Dissection, Homogenization, Sample boiling in 1X Lamelli, SDS-PAGE, Standard Western Blotting
Primary Antibody Anti-Fruit Fly Drp1 Antibody
Primary Incubation 1:1000 in 5% BSA and 0.1% PBST Either 2 hours at RT or Overnight at 4 Degrees
Secondary Antibody 1:10000 Anti-rabbit/mouse IgG horseradish peroxidase-conjugated
Secondary Incubation 1 hour at room temperature
Other Reagents used ECL Clarity Substrate and enzyme for Chemiluminescence
Detection Biorad ChemiDoc
Results Summary In Drosophila ovaries, loss of Drp1 function was confirmed. Western blot analysis validated Drp1 knockdown, showing reduced Drp1 protein levels (~85 kDa) in ovaries expressing Drp1 miRNA, with β-Actin serving as a loading control.

Antibody Optimized and validated

Excellent, submitted by on
SKU DZ41314
Application Immunofluorescence
Sample Drosophila Fat body
Sample Processing Description Dissection, Fixation in 4%PFA, Permeabilization in PBS-TX, Blocking, Primary, Washes, Secondary, Washes, Nuclei Staining, Slide Preparation
Primary Antibody Anti-Fruit Fly Drp1 Antibody
Primary Incubation 1:100 in 2%BSA and 0.1% PBS-TX for Fat body
Secondary Antibody 1:1000 Anti-Rabbit/Mouse Alexa Fluor 488/Cy3/Cy5
Secondary Incubation 1 hour at room temperature
Detection Zeiss LSM 900 Confocal Microscope with Airyscan 2
Results Summary In Drosophila fatbody, Drp1 was seen as punctate structures, as expected from the literature on mitochondria.

In WB using β-tubulin antibody (Cat# A01857-1), a clear, specific band was observed in OCI-LY8 cells with clean background, showing stable expression after SRPK1 knockdown.

Excellent, submitted by on
SKU A01857-1
Application Western Blot
Sample human OCI-LY1 cells
Sample Processing Description Cell samples were lysed by sonication in RIPA buffer containing protease and phosphatase inhibitors, followed by centrifugation for 10 minutes. The supernatant was mixed with loading buffer at a 4:1 ratio and boiled for 10 minutes. Fifteen microliters of each sample were loaded per well.
Other Reagents 5% Non-fat milk
Primary Antibody Beta Tubulin/TUBB Antibody
Primary Incubation 1:3000, overnight at 4 ℃
Secondary Antibody HRP-conjugated Anti-Rabbit IgG Secondary Antibody
Secondary Incubation 1 hour in room temperature
Detection Substrate: ECL luminescent reagent, Imaging system:ChemiDoc MP
Results Summary The antibody is highly specific and efficient, with a clean background and no nonspecific bands. The target band has clear and well-defined edges.

Accurate localization and good imaging performance.

Excellent, submitted by on
SKU PB9093
Application Immunofluorenscence
Sample Mouse 4T1 cell xenograft tumor
Sample Processing Description Fixed in 4% paraformaldehyde for 48 hours, followed by paraffin embedding and sectioning.
Primary Incubation 1:200, overnight at 4 ℃
Blocking Agent Goat serum
Secondary Antibody DyLight 550-conjugated goat anti-rabbit antibody.
Secondary Incubation Incubate at room temperature for 1 hour
Detection Laser confocal microscopy
Results Summary The delivery time for antibodies is impressively fast — I usually receive the products within a week, which saves me a lot of valuable time. Both the pre-sales and after-sales support are efficient and reliable. Since my background is in chemistry, I often consulted Boster’s technical specialists about various details of biological experiments. They were always patient and thorough in their explanations, helping me avoid many detours during my experiments. Most importantly, these antibodies offer excellent value for money — they have strong binding performance, produce clear imaging results, and ensure a high experiment success rate, which has provided a solid foundation for my research.

The CLIPB4 antibody was efficiently used to detect CLIPB4 protein secreted in the mosquito hemolymph. The protein migrates at ~40 kDa in SDS-PAGE.

Excellent, submitted by on
CLIPB4 antibody Western blot result
SKU DZ33989-1
Application Western Blot
Sample β-galactosidase gene knockdown mosquito hemolymph, CLIPB4 knockdown mosquito hemolymph
Primary Incubation Overnight at 4°C
Secondary Incubation For 1 hour at room temperature
Secondary Antibody Dilution 1:3000
Detection Clarity Max Western ECL substrate
Results Summary Image showing the specificity of CLIPB4 antibody. Lane 1 includes hemolymph extracted from mosquitoes silenced for the bacterial β-galactosidase gene. Lane 2 contains hemolymph extracted from mosquitoes silenced for the CLIPB4 gene.