Cytoskeleton Staining

Phalloidin CruzFluor™ 488 Conjugate is a highly specific fluorescent marker that targets F-actin, providing exceptional insights into cytoskeletal organization. Its unique conjugation with CruzFluor™ 488 enhances fluorescence intensity and photostability, making it ideal for live-cell imaging. The conjugate exhibits distinct excitation and emission characteristics, allowing for effective differentiation in multi-channel experiments. This specificity aids in elucidating actin dynamics and cellular morphology with remarkable precision.

Phalloidin CruzFluor™ 405 Conjugate is a specialized fluorescent probe that selectively binds to F-actin, enabling detailed visualization of cytoskeletal structures. Its unique CruzFluor™ 405 conjugation offers enhanced brightness and stability under various imaging conditions. The conjugate's distinct spectral properties facilitate clear differentiation in complex samples, allowing researchers to investigate actin filament organization and dynamics with high resolution and accuracy.

Phalloidin CruzFluor™ 647 Conjugate is a highly specific fluorescent marker that targets F-actin, providing exceptional contrast for studying cytoskeletal architecture. Its unique CruzFluor™ 647 conjugation enhances photostability and allows for extended imaging sessions without significant signal loss. The conjugate's longer wavelength emission minimizes background fluorescence, enabling precise analysis of actin filament interactions and cellular morphology in diverse experimental contexts.

Phalloidin CruzFluor™ 594 Conjugate is a specialized fluorescent probe that selectively binds to F-actin, facilitating detailed visualization of cytoskeletal dynamics. Its unique conjugation with CruzFluor™ 594 offers enhanced brightness and optimal excitation properties, allowing for high-resolution imaging. This conjugate exhibits rapid binding kinetics, ensuring effective labeling of actin filaments, while its distinct emission spectrum aids in multiplexing experiments, revealing intricate cellular structures.

Phalloidin CruzFluor™ 555 Conjugate is a highly specific fluorescent marker that targets F-actin, enabling precise analysis of cytoskeletal architecture. Its conjugation with CruzFluor™ 555 provides superior photostability and distinct fluorescence characteristics, making it ideal for dynamic studies. The conjugate demonstrates swift binding affinity, ensuring thorough labeling of actin filaments, while its unique spectral properties enhance the resolution of complex cellular interactions.

Resorufin is a fluorescent compound that exhibits remarkable interactions with cellular components, particularly in the context of cytoskeletal dynamics. Its unique redox properties allow it to participate in electron transfer processes, influencing actin polymerization and stability. The compound's high quantum yield and sensitivity to environmental changes make it an effective probe for monitoring cytoskeletal rearrangements. Additionally, its ability to form non-covalent complexes enhances its utility in studying cellular motility and structural integrity.

Phalloidin CruzFluor™ 633 Conjugate is a potent tool for visualizing the actin cytoskeleton, characterized by its strong affinity for F-actin. This conjugate exhibits enhanced fluorescence properties, enabling precise imaging of filamentous structures. Its unique binding mechanism stabilizes actin filaments, preventing depolymerization and allowing for detailed analysis of cytoskeletal architecture. The conjugate's specificity and brightness facilitate the exploration of dynamic cellular processes, providing insights into cellular morphology and motility.

Phalloidin-tetramethylrhodamine conjugate is a specialized probe that selectively binds to filamentous actin (F-actin), enhancing the visualization of cytoskeletal networks. Its unique fluorophore properties yield high-resolution imaging, allowing researchers to track actin dynamics in real time. The conjugate's ability to stabilize actin filaments aids in the study of cytoskeletal organization and cellular mechanics, revealing intricate details of cellular structure and behavior.

Phalloidin CruzFluor™ 350 Conjugate is a potent tool for investigating the cytoskeleton, specifically targeting filamentous actin (F-actin) with high specificity. Its unique fluorescent properties enable exceptional contrast in imaging, facilitating the observation of actin polymerization and depolymerization processes. By stabilizing F-actin, it provides insights into the dynamic rearrangements of the cytoskeletal framework, enhancing our understanding of cellular architecture and motility.

9-(2,2-Dicyanovinyl)julolidine exhibits intriguing interactions with cytoskeletal components, particularly influencing microtubule dynamics. Its unique electronic properties allow for effective binding to tubulin, promoting polymerization and stabilization of microtubules. This compound's distinct photophysical characteristics enable real-time monitoring of cytoskeletal rearrangements, providing valuable insights into cellular structure and mechanical properties. Its role in modulating cytoskeletal integrity highlights its significance in cellular dynamics.