about
A decade of riboswitchesStructured mRNAs regulate translation initiation by binding to the platform of the ribosomeStructure-function studies of FMRP RGG peptide recognition of an RNA duplex-quadruplex junctionStructural Insights into Ligand Recognition by a Sensing Domain of the Cooperative Glycine RiboswitchStructural insights into recognition of c-di-AMP by the ydaO riboswitchStructural basis for gene regulation by a thiamine pyrophosphate-sensing riboswitchStructural basis for discriminative regulation of gene expression by adenine- and guanine-sensing mRNAsRibozymes, riboswitches and beyond: regulation of gene expression without proteinsAmino acid recognition and gene regulation by riboswitches.Structural and Dynamic Basis for Low-Affinity, High-Selectivity Binding of L-Glutamine by the Glutamine RiboswitchRibosomal protein S15 represses its own translation via adaptation of an rRNA-like fold within its mRNA.Structures of RNA complexes with the Escherichia coli RNA pyrophosphohydrolase RppH unveil the basis for specific 5'-end-dependent mRNA decay.RNA-Puzzles Round II: assessment of RNA structure prediction programs applied to three large RNA structures.RNA-Puzzles: a CASP-like evaluation of RNA three-dimensional structure predictionCrystal structure reveals specific recognition of a G-quadruplex RNA by a β-turn in the RGG motif of FMRP.Structural basis for Diels-Alder ribozyme-catalyzed carbon-carbon bond formationThe long and the short of riboswitches.Determination of riboswitch structures: light at the end of the tunnel?Themes and variations in riboswitch structure and function.Structure and function of pseudoknots involved in gene expression control.Cooperativity, allostery and synergism in ligand binding to riboswitches.Sequencing of flagellin genes from Natrialba magadii provides new insight into evolutionary aspects of archaeal flagellins.Molecular imaging of temporal dynamics and spatial heterogeneity of hypoxia-inducible factor-1 signal transduction activity in tumors in living mice.Preparation and Crystallization of Riboswitches.Preparation of Short 5'-Triphosphorylated Oligoribonucleotides for Crystallographic and Biochemical Studies.Control of stereoselectivity in an enzymatic reaction by backdoor access.Specific recognition of rpsO mRNA and 16S rRNA by Escherichia coli ribosomal protein S15 relies on both mimicry and site differentiation.Syntheses of RNAs with up to 100 nucleotides containing site-specific 2'-methylseleno labels for use in X-ray crystallography.A Novel RNA Phosphorylation State Enables 5' End-Dependent Degradation in Escherichia coli.Importance of a diphosphorylated intermediate for RppH-dependent RNA degradation.Molecular mimicry in translational regulation: the case of ribosomal protein S15.Crystallization of RNA/protein complexes.Noncanonical features and modifications on the 5'-end of bacterial sRNAs and mRNAsykkC riboswitches employ an add-on helix to adjust specificity for polyanionic ligandsSynthesis, Oxidation Behavior, Crystallization and Structure of 2‘-Methylseleno Guanosine Containing RNAsProbing motions between equivalent RNA domains using magnetic field induced residual dipolar couplings: accounting for correlations between motions and alignmentStructural and kinetic insights into stimulation of RppH-dependent RNA degradation by the metabolic enzyme DapFDiverse Mechanisms of CRISPR-Cas9 Inhibition by Type IIC Anti-CRISPR Proteins
P50
Q27000960-8B44C17A-A472-4F4A-9426-5F755F95BA7EQ27648434-6B3E6080-6658-4992-92C9-E8B5A455E22FQ27666251-6ED37975-8CE2-4277-99FB-F6EB96704EE9Q27666293-46D7F588-1608-430C-92C6-6C43911E19A8Q27684917-D9C3D389-8B1C-4831-A54D-7B5011EFCD18Q28242477-D1EFB7AD-3D82-4616-B201-2206A6EFB0EAQ28299238-26B24EF2-0480-40D0-B64B-AF4BC84F9315Q28603616-645119B3-860E-43CA-93D5-A26EFEE4BBBFQ34018578-0C93C59A-85C8-4479-867E-5902EDC3E9C1Q34045584-29B7D0A5-01E3-496C-985A-EC5C46212682Q34189055-1702B592-1D44-428E-A680-0E732032B4CAQ35351635-94D58B79-A5AF-4A3A-A160-F4E1E253F559Q35621422-88A51382-4A42-4DBE-8E62-40BF4C0F6439Q35853409-034D870B-B507-4011-9245-F3989523487FQ36120228-098F5DF8-F0FA-4076-8C5D-ED10A0C37A39Q36407736-1A75030D-15E8-44BA-A864-CD3CC9F92AE2Q37389241-AD66BB4B-DD5F-4503-B13E-D90C47490582Q37671513-8D9F59A0-48B1-4AEE-98D4-FFEDBA40AF61Q38192408-D88C9CCD-21B8-4F6D-AAAA-5CE88AB05FBCQ38231976-26490075-A2D0-429C-BFB5-B5D5A433F354Q38542790-ADC9CF74-05E3-45B7-AEC6-A0818D0558B6Q39677886-EADE06C4-9E0C-471B-B3F8-933FF4A9FF76Q40519873-5FDAE03B-939C-4D80-AE7C-6786764978CBQ40677169-8777B260-6EFD-47FA-A398-121EA60B51FAQ40677176-438C0158-81A5-46AD-9E66-109EFCFDD368Q42133247-767FA3B1-8F8D-4BD1-97D9-2366765E0519Q43113784-D0F92519-922A-4AD8-9BA5-46D7AAA22530Q46665250-B29A826D-4260-4D3D-A9A3-573EF9AC7A4CQ50547891-191B90BA-E60F-468B-9710-F52DE334E545Q52605496-A7C2B1BA-0A59-4521-87A4-7BB4C88DE7CDQ54449367-7CD9540C-E3DD-4918-82D2-0540DA2092CEQ54537506-7FF5EF40-A1CD-46EE-9BC7-4B9D12FD8795Q57063429-165E8357-761B-44B9-A24C-770609E7E0EAQ57165474-772232B7-97B7-4496-BC46-D8399F1A04BFQ59198740-472C6E9E-7166-460F-A3D0-DA36369DEF0AQ73860361-BFCC41CD-FDD5-47D9-AAD8-F1556492DD99Q88588532-15DA5587-4DC6-48AC-9468-70E86A73BC9FQ92234809-EF71545B-03FA-48AC-8117-CCC34F6A5D24
P50
description
hulumtues
@sq
researcher
@en
ricercatore
@it
wetenschapper
@nl
հետազոտող
@hy
name
Alexander Serganov
@ast
Alexander Serganov
@en
Alexander Serganov
@es
Alexander Serganov
@nl
type
label
Alexander Serganov
@ast
Alexander Serganov
@en
Alexander Serganov
@es
Alexander Serganov
@nl
prefLabel
Alexander Serganov
@ast
Alexander Serganov
@en
Alexander Serganov
@es
Alexander Serganov
@nl
P1006
P214
P244
P1006
P106
P21
P214
P244
n2009181818
P31
P496
0000-0001-8328-9310
P735
P7859
lccn-n2009181818