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Gi Fay Mok

Gi Fay Mok

University of East Anglia

H-index: 11

Europe-United Kingdom

Contact Gi Fay Mok

About Gi Fay Mok

Gi Fay Mok, With an exceptional h-index of 11 and a recent h-index of 10 (since 2020), a distinguished researcher at University of East Anglia, specializes in the field of Developmental Biology, Myogenesis, microRNA.

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

Single-cell and spatial transcriptomics of the avian embryo tailbud

Absence of the primary cilia formation gene Talpid3 impairs muscle stem cell function

A transcriptional and regulatory map of mouse somite maturation

Muscle stem cell function is impaired in absence of Talpid3-a gene required for primary cilia formation

Investigating chromatin accessibility during development and differentiation by ATAC-sequencing to guide the identification of cis-regulatory elements

Characterising open chromatin in chick embryos identifies cis-regulatory elements important for paraxial mesoderm formation and axis extension

4D Live Imaging and Analysis of Chick Embryo Somites

The Pax6 master control gene initiates spontaneous retinal development via a self-organising Turing network

Gi Fay Mok Information

University

Position

___

Citations(all)

451

Citations(since 2020)

263

Cited By

301

hIndex(all)

11

hIndex(since 2020)

10

i10Index(all)

11

i10Index(since 2020)

11

Email

University Profile Page

Google Scholar

Gi Fay Mok Skills & Research Interests

Developmental Biology

Myogenesis

microRNA

Top articles of Gi Fay Mok

Single-cell and spatial transcriptomics of the avian embryo tailbud

bioRxiv

2024

Gi Fay Mok
Gi Fay Mok

H-Index: 8

Absence of the primary cilia formation gene Talpid3 impairs muscle stem cell function

Communications Biology

2023/11/4

Sujith Sebastian
Sujith Sebastian

H-Index: 8

Gi Fay Mok
Gi Fay Mok

H-Index: 8

Leighton Folkes
Leighton Folkes

H-Index: 6

Andrea Münsterberg
Andrea Münsterberg

H-Index: 25

A transcriptional and regulatory map of mouse somite maturation

Developmental Cell

2023/10/9

Gi Fay Mok
Gi Fay Mok

H-Index: 8

Muscle stem cell function is impaired in absence of Talpid3-a gene required for primary cilia formation

bioRxiv

2022/10/14

Sujith Sebastian
Sujith Sebastian

H-Index: 8

Gi Fay Mok
Gi Fay Mok

H-Index: 8

Leighton Folkes
Leighton Folkes

H-Index: 6

Andrea Münsterberg
Andrea Münsterberg

H-Index: 25

Investigating chromatin accessibility during development and differentiation by ATAC-sequencing to guide the identification of cis-regulatory elements

2022/6/30

Gi Fay Mok
Gi Fay Mok

H-Index: 8

Andrea Münsterberg
Andrea Münsterberg

H-Index: 25

Characterising open chromatin in chick embryos identifies cis-regulatory elements important for paraxial mesoderm formation and axis extension

Nature communications

2021/2/19

Gi Fay Mok
Gi Fay Mok

H-Index: 8

Leighton Folkes
Leighton Folkes

H-Index: 6

Tatjana Sauka-Spengler
Tatjana Sauka-Spengler

H-Index: 29

Grant N Wheeler
Grant N Wheeler

H-Index: 17

Simon Moxon
Simon Moxon

H-Index: 25

4D Live Imaging and Analysis of Chick Embryo Somites

The Epithelial-to Mesenchymal Transition: Methods and Protocols

2021

Gi Fay Mok
Gi Fay Mok

H-Index: 8

James Mccoll
James Mccoll

H-Index: 15

Andrea Münsterberg
Andrea Münsterberg

H-Index: 25

The Pax6 master control gene initiates spontaneous retinal development via a self-organising Turing network

Development

2020/12/15

Timothy Grocott
Timothy Grocott

H-Index: 10

Gi Fay Mok
Gi Fay Mok

H-Index: 8

Characterising open chromatin identifies novel cis-regulatory elements important for paraxial mesoderm formation and axis extension

bioRxiv

2020/1/1

Gi Fay Mok
Gi Fay Mok

H-Index: 8

Leighton Folkes
Leighton Folkes

H-Index: 6

Ruth Williams
Ruth Williams

H-Index: 10

Grant N Wheeler
Grant N Wheeler

H-Index: 17

Simon Moxon
Simon Moxon

H-Index: 25

See List of Professors in Gi Fay Mok University(University of East Anglia)