Roza K Przanowska
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Explore the profile of Roza K Przanowska including associated specialties, affiliations and a list of published articles.
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11
Citations
93
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Recent Articles
1.
Hao X, Chen Y, Sahu D, Przanowska R, Weidmann C, Nardi I, et al.
bioRxiv
. 2025 Jan;
PMID: 39764029
The 1.7 kb DRAIC long noncoding RNA inhibits tumor growth, inhibits cancer cell invasion, migration, colony formation and interacts with IKK (IκB kinase) subunits, inhibiting the phosphorylation and degradation of...
2.
Przanowska R, Labban N, Przanowski P, Hawes R, Atkins K, Showalter S, et al.
Breast Cancer Res
. 2024 Dec;
26(1):192.
PMID: 39741344
Background: Primary luminal breast cancer cells lose their identity rapidly in standard tissue culture, which is problematic for testing hormone interventions and molecular pathways specific to the luminal subtype. Breast...
3.
Przanowska R, Chen Y, Uchida T, Shibata E, Hao X, Rueda I, et al.
bioRxiv
. 2024 Apr;
PMID: 38617300
The six subunit ORC is essential for initiation of DNA replication in eukaryotes. Cancer cell-lines in culture can survive and replicate DNA replication after genetic inactivation of individual ORC subunits,...
4.
Przanowska R, Labban N, Przanowski P, Hawes R, Atkins K, Showalter S, et al.
bioRxiv
. 2024 Apr;
PMID: 38585922
Background: Primary luminal breast cancer cells lose their identity rapidly in standard tissue culture, which is problematic for testing hormone interventions and molecular pathways specific to the luminal subtype. Breast...
5.
Przanowski P, Przanowska R, Guertin M
Commun Biol
. 2023 Mar;
6(1):231.
PMID: 36859531
Alleles within the chr19p13.1 locus are associated with increased risk of both ovarian and breast cancer and increased expression of the ANKLE1 gene. ANKLE1 is molecularly characterized as an endonuclease...
6.
Dutta A, Lank D, Przanowska R, Przanowski P, Wang L, Nguyen B, et al.
Genome Res
. 2023 Feb;
33(3):314-331.
PMID: 36810156
Adipocytes contribute to metabolic disorders such as obesity, diabetes, and atherosclerosis. Prior characterizations of the transcriptional network driving adipogenesis have overlooked transiently acting transcription factors (TFs), genes, and regulatory elements...
7.
Przanowska R, Weidmann C, Saha S, Cichewicz M, Jensen K, Przanowski P, et al.
Cell Rep
. 2022 Feb;
38(7):110361.
PMID: 35172143
Many lncRNAs have been discovered using transcriptomic data; however, it is unclear what fraction of lncRNAs is functional and what structural properties affect their phenotype. MUNC lncRNA (also known as...
8.
Cable J, Heard E, Hirose T, Prasanth K, Chen L, Henninger J, et al.
Ann N Y Acad Sci
. 2021 Nov;
1506(1):118-141.
PMID: 34791665
The human transcriptome contains many types of noncoding RNAs, which rival the number of protein-coding species. From long noncoding RNAs (lncRNAs) that are over 200 nucleotides long to piwi-interacting RNAs...
9.
Przanowska R, Sobierajska E, Su Z, Jensen K, Przanowski P, Nagdas S, et al.
FASEB J
. 2020 Apr;
34(6):7687-7702.
PMID: 32277852
miR-206, miR-1a-1, and miR-1a-2 are induced during differentiation of skeletal myoblasts and promote myogenesis in vitro. miR-206 is required for skeletal muscle regeneration in vivo. Although this miRNA family is...
10.
Su Z, Frost E, Lammert C, Przanowska R, Lukens J, Dutta A
RNA Biol
. 2020 Jan;
17(8):1183-1195.
PMID: 31983265
tRNA-derived small fragments (tRFs) and tRNA halves have emerging functions in different biological pathways, such as regulating gene expression, protein translation, retrotransposon activity, transgenerational epigenetic changes and response to environmental...