CUFinder

Jacqueline F Pelham

About Jacqueline F Pelham

Jacqueline F Pelham, With an exceptional h-index of 4 and a recent h-index of 4 (since 2020), a distinguished researcher at Rensselaer Polytechnic Institute, specializes in the field of Circadian Clock, Intrinsically Disordered Proteins.

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

Disordered clock protein interactions and charge blocks turn an hourglass into a persistent circadian oscillator

Conformational changes in the negative arm of the circadian clock correlate with dynamic interactomes involved in post-transcriptional regulation

A fuzzy complex in the negative arm regulates circadian clock robustness.

The intrinsically disordered frequency isoforms of Neurospora crassa play a dynamic role in negative arm circadian clock regulation

LOCATE reveals electrostatic “islands” and “hotspots” are important for a disordered clock protein's interactions to regulate clock robustness

The formation of a fuzzy complex in the negative arm regulates the robustness of the circadian clock

Deciphering the contributions of protein disorder to the repressing complex of the circadian clock

Intrinsic disorder plays a role in conserving the circadian circuit

Jacqueline F Pelham Information

University

Position

Graduate Student

Citations(all)

58

Citations(since 2020)

58

Cited By

8

hIndex(all)

4

hIndex(since 2020)

4

i10Index(all)

2

i10Index(since 2020)

2

Email

University Profile Page

Google Scholar

Jacqueline F Pelham Skills & Research Interests

Circadian Clock

Intrinsically Disordered Proteins

Top articles of Jacqueline F Pelham

Disordered clock protein interactions and charge blocks turn an hourglass into a persistent circadian oscillator

Nature Communications

2024/4/25

Daniel Griffith
Daniel Griffith

H-Index: 2

Jacqueline F Pelham
Jacqueline F Pelham

H-Index: 2

Pankaj Karande
Pankaj Karande

H-Index: 18

Jennifer M Hurley
Jennifer M Hurley

H-Index: 14

Conformational changes in the negative arm of the circadian clock correlate with dynamic interactomes involved in post-transcriptional regulation

Cell reports

2023/4/25

Jacqueline F Pelham
Jacqueline F Pelham

H-Index: 2

Jennifer M Hurley
Jennifer M Hurley

H-Index: 14

A fuzzy complex in the negative arm regulates circadian clock robustness.

2022/3/28

Daniel Griffith
Daniel Griffith

H-Index: 2

Pankaj Karande
Pankaj Karande

H-Index: 18

The intrinsically disordered frequency isoforms of Neurospora crassa play a dynamic role in negative arm circadian clock regulation

Biophysical Journal

2022/2/11

Jennifer M Hurley
Jennifer M Hurley

H-Index: 14

LOCATE reveals electrostatic “islands” and “hotspots” are important for a disordered clock protein's interactions to regulate clock robustness

Biophysical Journal

2022/2/11

Daniel Griffith
Daniel Griffith

H-Index: 2

Jacqueline F Pelham
Jacqueline F Pelham

H-Index: 2

Pankaj Karande
Pankaj Karande

H-Index: 18

Jennifer M Hurley
Jennifer M Hurley

H-Index: 14

The formation of a fuzzy complex in the negative arm regulates the robustness of the circadian clock

bioRxiv

2022/1/5

Daniel Griffith
Daniel Griffith

H-Index: 2

Jacqueline F Pelham
Jacqueline F Pelham

H-Index: 2

Pankaj Karande
Pankaj Karande

H-Index: 18

Jennifer M Hurley
Jennifer M Hurley

H-Index: 14

Deciphering the contributions of protein disorder to the repressing complex of the circadian clock

2022

Intrinsic disorder plays a role in conserving the circadian circuit

2020/11/12

Jacqueline F Pelham
Jacqueline F Pelham

H-Index: 2

Jennifer M Hurley
Jennifer M Hurley

H-Index: 14

Intrinsic disorder is an essential characteristic of components in the conserved circadian circuit

2020/12

Jacqueline F Pelham
Jacqueline F Pelham

H-Index: 2

Jennifer M Hurley
Jennifer M Hurley

H-Index: 14

See List of Professors in Jacqueline F Pelham University(Rensselaer Polytechnic Institute)