h
PSC
reg
®
Home
Browse
All cell lines
All hiPSC lines
All hESC lines
Cell line providers
Research projects
Countries
Diseases
Publications
Clinical studies
Info
About hPSCreg
FAQ
Cell Registration
Glossary
Documents & Governance
Fact Sheets
Naming Tool
Publishing your line
Structures
Registration Summary
Certification
Organoids
API
Export Data
SPARQL Guide
Contact
News
Newsletter Subscription
Privacy Policy
Terms of Use
Imprint
Login
Log-in
Sign up
Forgot your password?
This website uses cookies to keep track of login sessions and for internal Matomo Statistics. See our
Privacy Policy
for details.
This website uses cookies,
learn more
x
MHHi012-A
Registration Summary
:
A
P
E
C
LDS-P1 clone 7
The cell line is
not submitted
yet.
(only basic data is shown)
General
Cell Line
hPSCreg name
MHHi012-A
Cite as:
When citing this cell line, please use the hPSCreg name (see
Naming Tool
) and the corresponding Research Resource ID (RRID).
MHHi012-A (RRID:CVCL_YX88)
Alternative name(s)
LDS-P1 clone 7
Cell line type
Human induced pluripotent stem cell (hiPSC)
Similar lines
No similar lines found.
Last update
31st July 2019
User feedback
show/hide
Written by
on
Delete
No feedback available yet.
Login
to share your feedback, experiences or results with the research community.
Provider
Generator
Hannover Medical School (MHH)
External Databases
Cellosaurus
CVCL_YX88
Wikidata
Q95989477
General Information
Publications
Pongpamorn P et al. Generation of three induced pluripotent stem cell lines (MHHi012-A, MHHi013-A, MHHi014-A) from a family with Loeys-Dietz syndrome carrying a heterozygous p.M253I (c.759G>A) mutation in the TGFBR1 gene. Stem cell research. 2020 Mar;43:101707.
Zhu K et al. Modeling aortic diseases using induced pluripotent stem cells. Stem cells translational medicine. 2021 Feb;10(2):190-197.
Kloos D et al. Generation of Human iPSC from Small Volume Peripheral Blood Samples. Methods in molecular biology (Clifton, N.J.). 2022;2429:27-39.
von Schledorn L et al. Primary Ciliary Dyskinesia Patient-Specific hiPSC-Derived Airway Epithelium in Air-Liquid Interface Culture Recapitulates Disease Specific Phenotypes In Vitro. Cells. 2023 May 24;12(11).
Kwartler Callie S. et al. Use of iPSC-Derived Smooth Muscle Cells to Model Physiology and Pathology. Arteriosclerosis, Thrombosis, and Vascular Biology. 2024-07-00.
hIPSC Derivation
General
Login to share your feedback, experiences or results with the research community.