Ask a Question
Coherent
Search Results
Refine

Result Type

13 - 24 of 73 Products for 'filament' Page 2 of 7 |

filament

LIT BioPhotonics OBIS-GALAXY TIRF-Microscopy 0915.pdf

LIT BioPhotonics OBIS-GALAXY TIRF-Microscopy 0915.pdf

…actin filaments. Tropomyosins are coiled-coil proteins whose known functions are to bind actin filaments and thereby regulate multiple cytoskeletal functions -- including actin network dynamics near the leading edge of motile cells. Mullins explained, "The binding of tropomyosins to actin filaments

Bio Photonics - September 2015

Bio Photonics - September 2015

…actin filaments. Tropomyosins are coiled-coil proteins whose known functions are to bind actin filaments and thereby regulate multiple cytoskeletal functions -- including actin network dynamics near the leading edge of motile cells. Mullins explained, "The binding of tropomyosins to actin filaments

Bio Photonics - September 2015

Bio Photonics - September 2015

…actin filaments. Tropomyosins are coiled-coil proteins whose known functions are to bind actin filaments and thereby regulate multiple cytoskeletal functions -- including actin network dynamics near the leading edge of motile cells. Mullins explained, "The binding of tropomyosins to actin filaments

Bio Photonics - September 2015

Bio Photonics - September 2015

…control the stability and function of actin filaments. TIRF microscopy in single-filament studies The Mullins Lab, located at UCSF's Mission Bay campus, is widely recognized as a leading authority on the study of actin filaments. The protein filaments are fundamental to many processes in virtually…

Bio Photonics - September 2015

Bio Photonics - September 2015

…control the stability and function of actin filaments. TIRF microscopy in single-filament studies The Mullins Lab, located at UCSF's Mission Bay campus, is widely recognized as a leading authority on the study of actin filaments. The protein filaments are fundamental to many processes in virtually…

CaseStudy TIRF MullinsLab UCSF.pdf

CaseStudy TIRF MullinsLab UCSF.pdf

filaments. Tropomyosins are coiled-coil proteins whose known function is to bind actin filaments and thereby regulate multiple cytoskeletal functions, including actin network dynamics near the leading edge of motile cells. Professor Mullins explains, "The binding of tropomyosins to actin filaments

LIT BioPhotonics OBIS-GALAXY TIRF-Microscopy 0915.pdf

LIT BioPhotonics OBIS-GALAXY TIRF-Microscopy 0915.pdf

…control the stability and function of actin filaments. TIRF microscopy in single-filament studies The Mullins Lab, located at UCSF's Mission Bay campus, is widely recognized as a leading authority on the study of actin filaments. The protein filaments are fundamental to many processes in virtually…

Bio Photonics - September 2015

Bio Photonics - September 2015

…control the stability and function of actin filaments. TIRF microscopy in single-filament studies The Mullins Lab, located at UCSF's Mission Bay campus, is widely recognized as a leading authority on the study of actin filaments. The protein filaments are fundamental to many processes in virtually…

Bio Photonics - September 2015

Bio Photonics - September 2015

…control the stability and function of actin filaments. TIRF microscopy in single-filament studies The Mullins Lab, located at UCSF's Mission Bay campus, is widely recognized as a leading authority on the study of actin filaments. The protein filaments are fundamental to many processes in virtually…

CaseStudy TIRF MullinsLab UCSF.pdf

CaseStudy TIRF MullinsLab UCSF.pdf

filaments. Tropomyosins are coiled-coil proteins whose known function is to bind actin filaments and thereby regulate multiple cytoskeletal functions, including actin network dynamics near the leading edge of motile cells. Professor Mullins explains, "The binding of tropomyosins to actin filaments

LIT BioPhotonics OBIS-GALAXY TIRF-Microscopy 0915.pdf

LIT BioPhotonics OBIS-GALAXY TIRF-Microscopy 0915.pdf

…control the stability and function of actin filaments. TIRF microscopy in single-filament studies The Mullins Lab, located at UCSF's Mission Bay campus, is widely recognized as a leading authority on the study of actin filaments. The protein filaments are fundamental to many processes in virtually…

LIT BioPhotonics OBIS-GALAXY TIRF-Microscopy 0915.pdf

LIT BioPhotonics OBIS-GALAXY TIRF-Microscopy 0915.pdf

…control the stability and function of actin filaments. TIRF microscopy in single-filament studies The Mullins Lab, located at UCSF's Mission Bay campus, is widely recognized as a leading authority on the study of actin filaments. The protein filaments are fundamental to many processes in virtually…

Powered by Site Search powered by SLI Systems

Call 1-800-227-8840


Outside the U.S. 1-408-764-4983

Coherent has locations across the globe that are available to provide support for any product, service or inquiry.

Visit our Contact Page to connect with any of our global sites.


Corporate Headquarters
Coherent Inc.
5100 Patrick Henry Drive
Santa Clara, CA 95054 USA

email: tech.sales@coherent.com

Send Us a Message

Please Read Before Continuing

Risk factors: Except for the historical information contained here, many of the matters discussed in this Web site are forward-looking statements, based on expectations at the time they were made, that involve risks and uncertainties that could cause our results to differ materially from those expressed or implied by such statements. These risks are detailed in the “Factors That May Affect Future Results” section of our latest 10-K or 10-Q filing. Coherent assumes no obligation to update these forward-looking statements.


I have read the terms and conditions