Journal
Elife
Publication Date
3-23-2020
Volume
9
First Page
e49558
Document Type
Open Access Publication
DOI
10.7554/eLife.49558
Rights and Permissions
Huynh NP, Gloss CC, Lorentz J, et al. Long non-coding RNA GRASLND enhances chondrogenesis via suppression of the interferon type II signaling pathway. Elife. 2020;9:e49558. Published 2020 Mar 23. doi:10.7554/eLife.49558. © 2020, Huynh et al. This article is distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use and redistribution provided that the original author and source are credited.
Recommended Citation
Huynh, Nguyen P.T.; Gloss, Catherine C.; Lorentz, Jeremiah; Tang, Ruhang; Brunger, Jonathan M.; McAlinden, Audrey; Zhang, Bo; and Guilak, Farshid, "Long non-coding RNA GRASLND enhances chondrogenesis via suppression of the interferon type II signaling pathway." Elife. 9, e49558 (2020).
https://digitalcommons.wustl.edu/open_access_pubs/9337
Transparent reporting form.docx (244 kB)
elife-49558-fig1-data1-v2.xlsx (34 kB)
shRNA target sequences (5′ – sequence – 3′).
elife-49558-fig1-data2-v2.xlsx (38 kB)
qRT-PCR sequencing primers (5′ – sequence – 3′).
elife-49558-fig2-data1-v2.xlsx (25 kB)
Cloning primer sequences (5′ – sequence – 3′).
elife-49558-fig2-data2-v2.xlsx (46 kB)
GRASLND probe set sequences (5′ – sequence – 3′).
elife-49558-supp1-v2.xlsx (77 kB)
RNA-seq databases on MSC chondrogenesis (GSE109503) (Huynh et al., 2018b) and SOX9 overexpression in ASCs (GSE69110) (Ohba et al., 2015).
elife-49558-supp2-v2.xlsx (3218 kB)
Differentially expressed genes with GRASLND knockdown as compared to scrambled control.
