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Michael J Ragusa

Michael J Ragusa

Dartmouth College

H-index: 19

North America-United States

Contact Michael J Ragusa

About Michael J Ragusa

Michael J Ragusa, With an exceptional h-index of 19 and a recent h-index of 15 (since 2020), a distinguished researcher at Dartmouth College, specializes in the field of Autophagy, Structural Biology, Biochemistry, Cell Biology.

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

The structure of the diheme cytochrome c4 from Neisseria gonorrhoeae reveals multiple contributors to tuning reduction potentials

Molecular basis for the transcriptional regulation of an epoxide-based virulence circuit in Pseudomonas aeruginosa

A new GUV-based assay to reconstitute membrane tethering in vitro demonstrates the vesicle tethering ability of the selective autophagy scaffold Atg11

Atg23 is a vesicle-tethering protein

Characterization of Protein–Membrane Interactions in Yeast Autophagy

Dimerization-dependent membrane tethering by Atg23 is essential for yeast autophagy

A comparative analysis of the membrane binding and remodeling properties of two related sorting nexin complexes involved in autophagy

Membrane binding and homodimerization of Atg16 via two distinct protein regions is essential for autophagy in yeast

Michael J Ragusa Information

University

Position

Assistant Professor

Citations(all)

2373

Citations(since 2020)

960

Cited By

1861

hIndex(all)

19

hIndex(since 2020)

15

i10Index(all)

21

i10Index(since 2020)

19

Email

University Profile Page

Google Scholar

Michael J Ragusa Skills & Research Interests

Autophagy

Structural Biology

Biochemistry

Cell Biology

Top articles of Michael J Ragusa

The structure of the diheme cytochrome c4 from Neisseria gonorrhoeae reveals multiple contributors to tuning reduction potentials

Journal of Inorganic Biochemistry

2024/4/1

Michael J Ragusa
Michael J Ragusa

H-Index: 15

Molecular basis for the transcriptional regulation of an epoxide-based virulence circuit in Pseudomonas aeruginosa

bioRxiv

2024

Susu He
Susu He

H-Index: 7

Michael J Ragusa
Michael J Ragusa

H-Index: 15

A new GUV-based assay to reconstitute membrane tethering in vitro demonstrates the vesicle tethering ability of the selective autophagy scaffold Atg11

bioRxiv

2023

Michael J Ragusa
Michael J Ragusa

H-Index: 15

Atg23 is a vesicle-tethering protein

Autophagy

2022/10/3

Michael J Ragusa
Michael J Ragusa

H-Index: 15

Characterization of Protein–Membrane Interactions in Yeast Autophagy

2022/6/9

Michael J Ragusa
Michael J Ragusa

H-Index: 15

Dimerization-dependent membrane tethering by Atg23 is essential for yeast autophagy

Cell reports

2022/4/19

Michael J Ragusa
Michael J Ragusa

H-Index: 15

A comparative analysis of the membrane binding and remodeling properties of two related sorting nexin complexes involved in autophagy

Biochemistry

2022/4/14

Sarah Katzenell
Sarah Katzenell

H-Index: 9

Michael J Ragusa
Michael J Ragusa

H-Index: 15

Membrane binding and homodimerization of Atg16 via two distinct protein regions is essential for autophagy in yeast

Journal of molecular biology

2021/3/5

Shree Padma Metur
Shree Padma Metur

H-Index: 2

Michael J Ragusa
Michael J Ragusa

H-Index: 15

Guidelines for the use and interpretation of assays for monitoring autophagy (4th edition)1

2021/1/2

Amal Kamal Abdel-Aziz
Amal Kamal Abdel-Aziz

H-Index: 12

Mahmoud Abdellatif
Mahmoud Abdellatif

H-Index: 1

Hagai Abeliovich
Hagai Abeliovich

H-Index: 21

Khosrow Adeli
Khosrow Adeli

H-Index: 45

Sonja Aits
Sonja Aits

H-Index: 11

Shu Aizawa
Shu Aizawa

H-Index: 10

Simon Alberti
Simon Alberti

H-Index: 43

Muhammad Ali
Muhammad Ali

H-Index: 1

Javad Alizadeh
Javad Alizadeh

H-Index: 14

Alicia Alonso
Alicia Alonso

H-Index: 8

A highly conserved glutamic acid in ALFY inhibits membrane binding to aid in aggregate clearance

Traffic

2021/1

Sarah Katzenell
Sarah Katzenell

H-Index: 9

Maria Pellegrini
Maria Pellegrini

H-Index: 11

Ai Yamamoto
Ai Yamamoto

H-Index: 22

Michael J Ragusa
Michael J Ragusa

H-Index: 15

Structure and redox properties of the diheme electron carrier cytochrome c4 from Pseudomonas aeruginosa

Journal of inorganic biochemistry

2020/2/1

Michael J Ragusa
Michael J Ragusa

H-Index: 15

The third coiled coil domain of Atg11 is required for shaping mitophagy initiation sites

Journal of molecular biology

2020/10/2

Sarah Katzenell
Sarah Katzenell

H-Index: 9

Michael J Ragusa
Michael J Ragusa

H-Index: 15

The carboxy terminus of yeast Atg13 binds phospholipid membrane via motifs that overlap with the Vac8-interacting domain

Autophagy

2020/6/2

Michael J Ragusa
Michael J Ragusa

H-Index: 15

See List of Professors in Michael J Ragusa University(Dartmouth College)