Home
About Us
For Authors
Submission Procedure
Preparation Guidelines
Submit Manuscript
Editorial Process
Editorial Criteria
Publishing Ethics
Competing Interests
Copyright & Permissions
Archive
My bio page
Edit user profile
Signature
Reset the password
中文
Home
About Us
For Authors
Submission Procedure
Preparation Guidelines
Submit Manuscript
Editorial Process
Editorial Criteria
Publishing Ethics
Competing Interests
Copyright & Permissions
Archive
A peer-reviewed protocol journal. No publication fee; no access fee.
Search
Overview
Published
Edited
Reviewed
Following
Feedback
Q&A
Andrea Puhar
MIMS and Department of Molecular Biology, Umeå University
52 protocols
Khyati Shah
Sutro BioPharma
18 protocols
Michael Veling
Harvard Medical School
3 protocols
Rajesh D Gunage
HMS-BCH
2 protocols
View all coreviewers >
Reviewer
Anne-Marie Caroline Overstreet
Post-Doc, Indiana University School of Medicine
Research focus
Microbiology
microbiome, mucosal immunology, innate immunity
Contributions
Reviewer merit
Editor merit
Education
Ph.D., Iowa State University, 2012
Lab information
David Boone Lab
4 Protocols reviewed
TetR Regulated
in vivo
Repression Technology to Identify Conditional Gene Silencing in Genetically Engineerable Bacteria Using
Vibrio cholerae
Murine Infections as Model System
Authors:
Franz G. Zingl
,
Fabian Mitterer
,
Himadri B. Thapa
and
Stefan Schild
,
date:
10/05/2020,
view:
988,
Q&A:
0
Investigation of bacterial gene regulation upon environmental changes is still a challenging task. For example,
Vibrio cholerae
, a pathogen of the human gastrointestinal tract, faces diverse transient conditions in different compartments ...
More >
In vitro
Intestinal Epithelial Wound-healing Assays Using Electric Cell-Substrate Impedance Sensing Instrument
Authors:
Olivier Merlin-Zhang
,
Junsik Sung
and
Emilie Viennois
,
date:
09/05/2019,
view:
1958,
Q&A:
0
Here, we describe an
in vitro
epithelial wound-healing assay using Electric Cell-Substrate Impedance Sensing (ECIS) technology. The ECIS technology is a real time cell growth assay based on a small (250 μm diameter) active gold electrode ...
More >
More protocols >
following
More protocols >
0 Protocol feedback
Find out more
We use cookies on this site to enhance your user experience. By using our website, you are agreeing to allow the storage of cookies on your computer.