Skip to main content
About Us
Image Credits
Contributor Info
RSS
Log In
Join
Twitter
E-Alerts
Visit StemJournal
Main menu
About
Image Credits
Contributor Info
E-Alerts
Chapters
Cellular and nuclear reprogramming
Ectoderm specification and differentiation
Endoderm specification and differentiation
Epigenetics
Genomics and proteomics
Germ cell and somatic stem cell biology in reproduction
Manufacturing
Mesoderm specification and differentiation
Niche biology, homing, and migration
Renewal
Stem cell immunology
Therapeutic prospects
Tissue engineering
Protocols
Ectoderm differentiation
Endoderm differentiation
Genome editing
Mesoderm differentiation
Pluripotent stem cells
PSC characterization
PSC genetic stability
Reprogramming
StemLabs
Stem Cell COREdinates
Core Facility Profiles
Boston Children's Hospital Human Neuron Core
Boston University Center for Regenerative Medicine iPSC Core
Columbia Stem Cell Initiative Stem Cell Core Facility
Harvard Stem Cell Institute iPS Core Facility
Stem Cell Protocols
Stem Cell Reagents
Other Resources
News & Profiles
Latest News
Stem Cell Institute Profiles
Journal Stream
Forum
Search form
Search
You are here
Home
Biblio
Author
Title
Type
[
Year
]
Filters:
Author
is
Arcuri, Sharon
[Clear All Filters]
2024
Pennarossa G
,
Arcuri S
,
Gandolfi F
,
Brevini TAL
.
Generation of Artificial Blastoids Combining miR-200-Mediated Reprogramming and Mechanical Cues.
Cells. 2024;13(7).
PubMed
Google Scholar
2023
Pennarossa G
,
Arcuri S
,
De Iorio T
,
Ledda S
,
Gandolfi F
,
Brevini TAL
.
Combination of epigenetic erasing and mechanical cues to generate human epiBlastoids from adult dermal fibroblasts.
J Assist Reprod Genet. 2023.
PubMed
Google Scholar
Arcuri S
,
Pennarossa G
,
Ledda S
,
Gandolfi F
,
Brevini TAL
.
Use of Epigenetic Cues and Mechanical Stimuli to Generate Blastocyst-Like Structures from Mammalian Skin Dermal Fibroblasts.
Methods Mol Biol. 2023.
PubMed
Google Scholar
2022
Pennarossa G
,
De Iorio T
,
Arcuri S
,
Gandolfi F
,
Brevini TAL
.
Synergistic Effect of miR-200 and Young Extracellular Matrix-based Bio-scaffolds to Reduce Signs of Aging in Senescent Fibroblasts.
Stem Cell Rev Rep. 2022.
PubMed
Google Scholar