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Margaret Adele Scull

About Margaret Adele Scull

Margaret Adele Scull, With an exceptional h-index of 23 and a recent h-index of 15 (since 2020), a distinguished researcher at University of Maryland, Baltimore, specializes in the field of virology, cell biology, innate defense.

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

Engineering HeLa Cells to Better Support Rhinovirus C Infection In Vitro

Inhibition of SARS-CoV-2 infection in human airway epithelium with a xeno-nucleic acid aptamer

Mucus physically restricts influenza A viral particle access to the epithelium

Influenza virus infection modulates expression of the anti-inflammatory mucin 1 in both epithelial and immune cells

MUC5B mobilizes and MUC5AC spatially aligns mucociliary transport on human airway epithelium

Membrane-tethered mucin 1 is stimulated by interferon and virus infection in multiple cell types and inhibits influenza a virus infection in human airway epithelium

Immunofluorescence‐Mediated Detection of Respiratory Virus Infections in Human Airway Epithelial Cultures

Mucociliary Phenotypes in MUC5B and MUC5AC-Deficient Human Airway Epithelial Models

Margaret Adele Scull Information

University

Position

___

Citations(all)

4093

Citations(since 2020)

1492

Cited By

3232

hIndex(all)

23

hIndex(since 2020)

15

i10Index(all)

32

i10Index(since 2020)

25

Email

University Profile Page

Google Scholar

Margaret Adele Scull Skills & Research Interests

virology

cell biology

innate defense

Top articles of Margaret Adele Scull

Engineering HeLa Cells to Better Support Rhinovirus C Infection In Vitro

2024

Divya Swaminathan
Divya Swaminathan

H-Index: 5

Alec Pankow
Alec Pankow

H-Index: 1

Inhibition of SARS-CoV-2 infection in human airway epithelium with a xeno-nucleic acid aptamer

Respiratory Research

2023/11/7

Weizhong Li
Weizhong Li

H-Index: 16

Mucus physically restricts influenza A viral particle access to the epithelium

bioRxiv

2023/8/14

Influenza virus infection modulates expression of the anti-inflammatory mucin 1 in both epithelial and immune cells

The Journal of Immunology

2023/5/1

Leila Abdelhamid
Leila Abdelhamid

H-Index: 3

Margaret Adele Scull
Margaret Adele Scull

H-Index: 16

MUC5B mobilizes and MUC5AC spatially aligns mucociliary transport on human airway epithelium

Science Advances

2022/11/25

Daniel Song
Daniel Song

H-Index: 3

Membrane-tethered mucin 1 is stimulated by interferon and virus infection in multiple cell types and inhibits influenza a virus infection in human airway epithelium

Mbio

2022/8/30

Daniel Song
Daniel Song

H-Index: 3

Kajal Hamidzadeh
Kajal Hamidzadeh

H-Index: 7

Mehmet Kesimer
Mehmet Kesimer

H-Index: 26

Immunofluorescence‐Mediated Detection of Respiratory Virus Infections in Human Airway Epithelial Cultures

Current protocols

2022/6

Mucociliary Phenotypes in MUC5B and MUC5AC-Deficient Human Airway Epithelial Models

2022/5

Modeling innate antiviral immunity in physiological context

2022/3/30

Influenza A virus diffusion through mucus gel networks

Communications biology

2022/3/22

Daniel Song
Daniel Song

H-Index: 3

Rhinovirus C replication is associated with the endoplasmic reticulum and triggers cytopathic effects in an in vitro model of human airway epithelium

PLoS pathogens

2022/1/7

Daniel Song
Daniel Song

H-Index: 3

Kelsey M Gray
Kelsey M Gray

H-Index: 7

Modeling airway dysfunction in asthma using synthetic mucus biomaterials

ACS biomaterials science & engineering

2021/4/19

Daniel Song
Daniel Song

H-Index: 3

Leveraging 3D model systems to understand viral interactions with the respiratory mucosa

2020/12/11

Daniel Song
Daniel Song

H-Index: 3

See List of Professors in Margaret Adele Scull University(University of Maryland, Baltimore)