New Results
Mechanical heterogeneity along single cell-cell junctions is driven by lateral clustering of cadherins during vertebrate axis elongation
Robert J. Huebner, Abdul Naseer Malmi-Kakkada, Sena Sarikaya, Shinuo Weng, D. Thirumalai, View ORCID ProfileJohn B. Wallingford
doi: https://doi.org/10.1101/2020.02.11.944033
Robert J. Huebner
1Department of Molecular Biosciences
Abdul Naseer Malmi-Kakkada
2Department of Chemistry, University of Texas at Austin
3Dept. of Chemistry and Physics, Augusta University
Sena Sarikaya
1Department of Molecular Biosciences
Shinuo Weng
1Department of Molecular Biosciences
D. Thirumalai
2Department of Chemistry, University of Texas at Austin
John B. Wallingford
1Department of Molecular Biosciences
Article usage
Posted November 16, 2020.
Mechanical heterogeneity along single cell-cell junctions is driven by lateral clustering of cadherins during vertebrate axis elongation
Robert J. Huebner, Abdul Naseer Malmi-Kakkada, Sena Sarikaya, Shinuo Weng, D. Thirumalai, John B. Wallingford
bioRxiv 2020.02.11.944033; doi: https://doi.org/10.1101/2020.02.11.944033
Mechanical heterogeneity along single cell-cell junctions is driven by lateral clustering of cadherins during vertebrate axis elongation
Robert J. Huebner, Abdul Naseer Malmi-Kakkada, Sena Sarikaya, Shinuo Weng, D. Thirumalai, John B. Wallingford
bioRxiv 2020.02.11.944033; doi: https://doi.org/10.1101/2020.02.11.944033
Subject Area
Subject Areas
- Biochemistry (11745)
- Bioengineering (8752)
- Bioinformatics (29200)
- Biophysics (14972)
- Cancer Biology (12096)
- Cell Biology (17411)
- Clinical Trials (138)
- Developmental Biology (9421)
- Ecology (14182)
- Epidemiology (2067)
- Evolutionary Biology (18308)
- Genetics (12245)
- Genomics (16803)
- Immunology (11869)
- Microbiology (28085)
- Molecular Biology (11592)
- Neuroscience (60969)
- Paleontology (451)
- Pathology (1871)
- Pharmacology and Toxicology (3238)
- Physiology (4959)
- Plant Biology (10427)
- Synthetic Biology (2885)
- Systems Biology (7340)
- Zoology (1651)