Kersten T Schroeder
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Explore the profile of Kersten T Schroeder including associated specialties, affiliations and a list of published articles.
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Articles
11
Citations
155
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Recent Articles
1.
Skiados N, Rehman R, Riley M, Schroeder K
Biochem Mol Biol Educ
. 2024 Feb;
52(3):332-339.
PMID: 38348907
Biotechnology students entering the workforce often struggle in their application of textbook knowledge to build the solutions that we see in science and health fields today. Some students may be...
2.
Alonso G, Schroeder K
Biochem Mol Biol Educ
. 2020 Aug;
48(5):514-515.
PMID: 32812701
The transition to remote-teaching online for Molecular Biology has forced active learning exercises like Escape Rooms to also move online. In the past, Escape Rooms have been an effective tool...
3.
Thibaut D, Schroeder K
Biochem Mol Biol Educ
. 2020 Jul;
48(5):484-485.
PMID: 32652794
With biochemistry forced to transition to remote-teaching online, the cooperative active learning and problem-solving normally in labs have been limited. With little ability to perform experiments with laboratory equipment, determining...
4.
Perea W, Schroeder K, Bryant A, Greenbaum N
Biochemistry
. 2016 Jan;
55(4):629-32.
PMID: 26784522
We have probed the molecular basis of recognition between human spliceosomal U2 snRNP protein p14 and RNA targets representing the intron branch site region. Interaction of an RNA duplex representing...
5.
Wang J, Fessl T, Schroeder K, Ouellet J, Liu Y, Freeman A, et al.
Biophys J
. 2012 Dec;
103(12):2541-8.
PMID: 23260056
The k-turn is a commonly occurring structural motif that introduces a tight kink into duplex RNA. In free solution, it can exist in an extended form, or by folding into...
6.
Popovic M, Nelson J, Schroeder K, Greenbaum N
RNA
. 2012 Sep;
18(11):2093-103.
PMID: 23002123
The branch site helix from Saccharomyces cerevisiae with pseudouridine (ψ) incorporated in a phylogenetically conserved position of U2 snRNA features an extrahelical branch site adenosine (A) that forms a base...
7.
Schroeder K, Daldrop P, McPhee S, Lilley D
RNA
. 2012 Apr;
18(6):1257-66.
PMID: 22539525
The kink turn (k-turn) is a frequently occurring motif, comprising a bulge followed by G•A and A•G pairs that introduces a sharp axial bend in duplex RNA. Natural k-turn sequences...
8.
Schroeder K, Daldrop P, Lilley D
Structure
. 2011 Sep;
19(9):1233-40.
PMID: 21893284
The kink turn is a widespread RNA motif that introduces an acute kink into the axis of duplex RNA, typically comprising a bulge followed by a G⋅A and A⋅G pairs....
9.
Schroeder K, McPhee S, Ouellet J, Lilley D
RNA
. 2010 Jun;
16(8):1463-8.
PMID: 20562215
The kink-turn (k-turn) is a common structural motif in RNA that introduces a tight kink into the helical axis. k-turns play an important architectural role in RNA structures and serve...
10.
Schroeder K, Lilley D
Nucleic Acids Res
. 2009 Sep;
37(21):7281-9.
PMID: 19783814
Kink turns (k-turns) are important structural motifs that create a sharp axial bend in RNA. Most conform to a consensus in which a three-nucleotide bulge is followed by consecutive G*A...