Peter Brodersen
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Explore the profile of Peter Brodersen including associated specialties, affiliations and a list of published articles.
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51
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4368
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Recent Articles
11.
Vigh M, Bressendorff S, Thieffry A, Arribas-Hernandez L, Brodersen P
Nucleic Acids Res
. 2022 Jan;
50(3):1396-1415.
PMID: 35037064
Amplification of short interfering RNA (siRNAs) via RNA-dependent RNA polymerases (RdRPs) is of fundamental importance in RNA silencing. Plant microRNA (miRNA) action generally does not involve engagement of RdRPs, in...
12.
Arribas-Hernandez L, Rennie S, Koster T, Porcelli C, Lewinski M, Staiger D, et al.
Elife
. 2021 Sep;
10.
PMID: 34591015
Specific recognition of -methyladenosine (mA) in mRNA by RNA-binding proteins containing a YT521-B homology (YTH) domain is important in eukaryotic gene regulation. The YTH domain protein ECT2 is thought to...
13.
Arribas-Hernandez L, Rennie S, Schon M, Porcelli C, Enugutti B, Andersson R, et al.
Elife
. 2021 Sep;
10.
PMID: 34591013
Gene regulation via -methyladenosine (mA) in mRNA involves RNA-binding proteins that recognize mA via a YT521-B homology (YTH) domain. The plant YTH domain proteins ECT2 and ECT3 act genetically redundantly...
14.
Klionsky D, Abdel-Aziz A, Abdelfatah S, Abdellatif M, Abdoli A, Abel S, et al.
Autophagy
. 2021 Feb;
17(1):1-382.
PMID: 33634751
In 2008, we published the first set of guidelines for standardizing research in autophagy. Since then, this topic has received increasing attention, and many scientists have entered the field. Our...
15.
Yang M, Woolfenden H, Zhang Y, Fang X, Liu Q, Vigh M, et al.
Nucleic Acids Res
. 2020 Jul;
48(15):8767-8781.
PMID: 32652041
MicroRNA (miRNA)-mediated cleavage is involved in numerous essential cellular pathways. miRNAs recognize target RNAs via sequence complementarity. In addition to complementarity, in vitro and in silico studies have suggested that...
16.
Arribas-Hernandez L, Simonini S, Hansen M, Paredes E, Bressendorff S, Dong Y, et al.
Development
. 2020 Jul;
147(14).
PMID: 32611605
mRNA methylation at the position of adenosine (mA) enables multiple layers of post-transcriptional gene control, often via RNA-binding proteins that use a YT521-B homology (YTH) domain for specific mA recognition....
17.
Mohan A, Ulmer U, Hurtado L, Loh J, Li Y, Tountas A, et al.
ACS Appl Mater Interfaces
. 2020 Jul;
12(30):33613-33620.
PMID: 32609486
Heterogeneous thermal catalytic processes are vital for industrial production of fuels, fertilizers, and other chemicals necessary for sustaining human life. However, these processes are highly energy-intensive, requiring a vast consumption...
18.
Zhong M, Tran K, Min Y, Wang C, Wang Z, Dinh C, et al.
Nature
. 2020 May;
581(7807):178-183.
PMID: 32405017
The rapid increase in global energy demand and the need to replace carbon dioxide (CO)-emitting fossil fuels with renewable sources have driven interest in chemical storage of intermittent solar and...
19.
Thieffry A, Vigh M, Bornholdt J, Ivanov M, Brodersen P, Sandelin A
Plant Cell
. 2020 Mar;
32(6):1845-1867.
PMID: 32213639
In animals, RNA polymerase II initiates transcription bidirectionally from gene promoters to produce pre-mRNAs on the forward strand and promoter upstream transcripts (PROMPTs) on the reverse strand. PROMPTs are degraded...
20.
Leng X, Ivanov M, Kindgren P, Malik I, Thieffry A, Brodersen P, et al.
EMBO Rep
. 2020 Feb;
21(4):e49315.
PMID: 32103605
RNA polymerase II (RNAPII) transcription is crucial for gene expression. RNAPII density peaks at gene boundaries, associating these key regions for gene expression control with limited RNAPII movement. The connections...