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Viji Mythily Draviam

About Viji Mythily Draviam

Viji Mythily Draviam, With an exceptional h-index of 23 and a recent h-index of 15 (since 2020), a distinguished researcher at Queen Mary University of London, specializes in the field of Cell Biology, Aneuploidy, Mitosis, Kinetochore, Spindle orientation.

His recent articles reflect a diverse array of research interests and contributions to the field:

Multi-SpinX: An Advanced Framework for Automated Tracking of Mitotic Spindles and Kinetochores in Multicellular Environments

Search for chromosomal instability aiding variants reveal naturally occurring kinetochore gene variants that perturb chromosome segregation

Opportunities and challenges for deep learning in cell dynamics research

Deep learning techniques and mathematical modeling allow 3D analysis of mitotic spindle dynamics

Human genetic variations reveal Chromosomal Instability aiding Variants (CIVa) in kinetochore-microtubule associated proteins

Electrically tunable lenses–eliminating mechanical axial movements during high-speed 3D live imaging

Multinucleation associated DNA damage blocks proliferation in p53-compromised cells

Counteraction between Astrin-PP1 and Cyclin-B-CDK1 pathways protects chromosome-microtubule attachments independent of biorientation

Viji Mythily Draviam Information

University

Position

___

Citations(all)

3273

Citations(since 2020)

885

Cited By

2779

hIndex(all)

23

hIndex(since 2020)

15

i10Index(all)

27

i10Index(since 2020)

22

Email

University Profile Page

Google Scholar

Viji Mythily Draviam Skills & Research Interests

Cell Biology

Aneuploidy

Mitosis

Kinetochore

Spindle orientation

Top articles of Viji Mythily Draviam

Title

Journal

Author(s)

Publication Date

Multi-SpinX: An Advanced Framework for Automated Tracking of Mitotic Spindles and Kinetochores in Multicellular Environments

bioRxiv

Binghao Chai

Christoforos Efstathiou

Muntaqa Choudhury

Kinue Kuniyasu

Saakshi Sanjay Jain

...

2024

Search for chromosomal instability aiding variants reveal naturally occurring kinetochore gene variants that perturb chromosome segregation

Iscience

Asifa Islam

Janeth Catalina Manjarrez-González

Xinhong Song

Trupti Gore

Viji M Draviam

2024/3/15

Opportunities and challenges for deep learning in cell dynamics research

Jay Patel

Ken Chang

Syed Rakin Ahmed

Ikbeom Jang

Jayashree Kalpathy-Cramer

2021/9/27

Deep learning techniques and mathematical modeling allow 3D analysis of mitotic spindle dynamics

Journal of Cell Biology

David Dang

Christoforos Efstathiou

Dijue Sun

Haoran Yue

Nishanth R Sastry

...

2023/3/2

Human genetic variations reveal Chromosomal Instability aiding Variants (CIVa) in kinetochore-microtubule associated proteins

bioRxiv

Asifa Islam

Janeth Catalina Manjarrez-González

Trupti Gore

Xinhong Song

Viji M Draviam

2022/1/23

Electrically tunable lenses–eliminating mechanical axial movements during high-speed 3D live imaging

Christoforos Efstathiou

Viji M Draviam

2021/8/15

Multinucleation associated DNA damage blocks proliferation in p53-compromised cells

Communications biology

Madeleine Hart

Sophie D Adams

Viji M Draviam

2021/4/9

Counteraction between Astrin-PP1 and Cyclin-B-CDK1 pathways protects chromosome-microtubule attachments independent of biorientation

Nature Communications

Xinhong Song

Duccio Conti

Roshan L Shrestha

Dominique Braun

Viji M Draviam

2021/12/1

SpinX: Time-resolved 3D analysis of mitotic spindle dynamics using deep learning techniques and mathematical modelling

bioRxiv

David Dang

Christoforos Efstathiou

Dijue Sun

Nishanth Sastry

Viji M Draviam

2021/9/22

Cells protect chromosome-microtubule attachments, independent of biorientation, using an Astrin-PP1 and CyclinB-CDK1 feedback loop

bioRxiv

Duccio Conti

Xinhong Song

Roshan L Shrestha

Dominique Braun

Viji M Draviam

2020/12/24

Multinucleation Associated DNA Damage causes quiescence despite compromised p53

bioRxiv

Madeleine Hart

Sophie D Adams

Viji M Draviam

2020/12/22

See List of Professors in Viji Mythily Draviam University(Queen Mary University of London)