about
Artificial G-wire switch with 2,2'-bipyridine units responsive to divalent metal ions.A mRNA-Responsive G-Quadruplex-Based Drug Release SystemMolecular crowding effects on structure and stability of DNA.Specific binding of anionic porphyrin and phthalocyanine to the G-quadruplex with a variety of in vitro and in vivo applications.Effects of molecular crowding on the structures, interactions, and functions of nucleic acids.Aptamer carbon nanodot sandwich used for fluorescent detection of protein.Hydration changes upon DNA folding studied by osmotic stress experimentsDNA-based biosensor for monitoring pH in vitro and in living cells.Measurements of the binding of a large protein using a substrate density-controlled DNA chip.Hydration of Watson-Crick base pairs and dehydration of Hoogsteen base pairs inducing structural polymorphism under molecular crowding conditions.The effects of molecular crowding on the structure and stability of g-quadruplexes with an abasic site.A fluorescent probe for detection of an intracellular prognostic indicator in early-stage cancer.Synthesis and application of functional nucleic acidsDetection of a prognostic indicator in early-stage cancer using functionalized graphene-based peptide sensors.Label-free colorimetric and quantitative detection of cancer marker protein using noncrosslinking aggregation of Au/Ag nanoparticles induced by target-specific peptide probe.Regulation of DNA nucleases by molecular crowdingCationic porphyrin induced a telomeric DNA to g-quadruplex form in water.Structural and Functional Characterization of RecG Helicase under Dilute and Molecular Crowding Conditions.Hammerhead ribozyme activity and oligonucleotide duplex stability in mixed solutions of water and organic compounds.Sole and stable RNA duplexes of G-rich sequences located in the 5'-untranslated region of protooncogenes.Anionic phthalocyanines targeting G-quadruplexes and inhibiting telomerase activity in the presence of excessive DNA duplexes.Monomorphic RNA G-quadruplex and polymorphic DNA G-quadruplex structures responding to cellular environmental factors.Effect of divalent cations on antiparallel G-quartet structure of d(G4T4G4).A highly sensitive telomerase activity assay that eliminates false-negative results caused by PCR inhibitors.Study on effects of molecular crowding on G-quadruplex-ligand binding and ligand-mediated telomerase inhibition.Multiple and cooperative binding of fluorescence light-up probe thioflavin T with human telomere DNA G-quadruplex.Molecular crowding regulates the structural switch of the DNA G-quadruplex.Reduced graphene oxide upconversion nanoparticle hybrid for electrochemiluminescent sensing of a prognostic indicator in early-stage cancer.Effect of putrescine and PEG on a structural transition of DNA G-quadruplex.Composite of Au nanoparticles and molecularly imprinted polymer as a sensing material.Utilization of salmon milt DNA against UV damage.An approach to peptide-based ATP receptors by a combination of random selection, rational design, and molecular imprinting.Roles of Mg2+ in TPP-dependent riboswitch.SPR sensor chip for detection of small molecules using molecularly imprinted polymer with embedded gold nanoparticles.Regulation of telomerase activity by the thermodynamic stability of a DNA x RNA hybrid.Hydration regulates the thermodynamic stability of DNA structures under molecular crowding conditions.Characterization of structure and stability of long telomeric DNA G-quadruplexes.DNA logic gates based on structural polymorphism of telomere DNA molecules responding to chemical input signals.Effect of molecular crowding on DNA polymerase activity.Hydration regulates thermodynamics of G-quadruplex formation under molecular crowding conditions.
P50
Q33282279-ED183220-19A0-442A-9A9E-CF7C272A1952Q35605050-E7315A92-BCBA-4831-9A74-D9DC0688D159Q37106763-7BEB7D23-AEA4-41BE-9887-29E4B828D75CQ38040981-6ECA881A-4A46-46FE-994D-FCA536E9637EQ38173413-F08A5045-17E4-4528-9585-E7DB42ACABB2Q38320929-5BE6F938-18FD-448B-9D01-9A17529EC916Q38324106-80839562-3DF1-4F62-90CC-7327A8910388Q38326552-D6BA3885-4B85-49BE-ACA5-9AB15E322B48Q38333275-05789A9B-0104-49C1-B7DE-A960620CF39FQ38356398-05881BB0-96DA-41CD-B777-88DDB6E97FE3Q38542807-3C5DD3D3-EDF4-4152-87D6-C4C6FF27B4FFQ38930190-3EE30E38-34E3-4B28-868C-5344D6AA1F67Q39114399-4410848C-E26A-4DD7-BA0E-FFBDF3E3D03CQ39433239-A8A8D205-F0CA-4D0A-829C-B7662D6D74CFQ39511781-81718399-125B-4780-BEE8-B25E2C92C0EFQ42022396-6926FF38-5707-4248-9C44-083E534B6963Q42175176-4908526D-161A-43AC-9FB4-D7ED1198DD98Q42277897-782329D3-21CB-476D-B215-1D8ED7AEC84DQ42679292-A986143C-2EEB-41C6-89E7-818FC898D297Q42951468-D505ECAC-69C1-4E60-BAFB-16A9DF8D0382Q42993409-AAB92117-8C72-49E4-80DC-C2E58430097CQ43085292-5774F38A-8E45-4621-8D06-89D3A58DAA8DQ43610206-FE92D3B2-A8F5-460A-9AF9-D4DD2CD157B7Q43689864-2D61EA76-9158-49F9-BBD9-1D0CB73E00B9Q43970563-B471202B-4BF7-46CF-A6FA-D24BFABB70DDQ44020648-D51BFED6-C6DB-4A47-BAB0-93918860E8A1Q44244236-BC123DBB-E36A-424C-9EFF-21B809A58213Q44315712-B0641594-AB76-499C-AC11-C9A7AA760C13Q44622328-31C8F0F1-0AD1-400B-980D-67EEBDD334D1Q44778556-CD2FC2EA-673E-4D02-9890-901A51F03143Q45933102-AAD262DA-BD13-46DD-A30C-B7EA16E52F1BQ45982181-945B54F0-7C57-4B9C-837C-D7166B523088Q46464216-F9B8B377-D7AF-43D5-82E6-998A2864244FQ46574275-37DFC42B-E120-4C31-9C57-CBAF5C44534AQ47300755-E188DA8C-F453-492E-B078-BF55E7A86E56Q48035072-28651FAB-B5AD-4FE4-B142-C64D981E659BQ51100001-6527C2C5-0952-49DC-93E8-D36E22C97E04Q51121421-F8EE34D1-33E6-42EB-9017-40DE87B5C4BEQ51150475-47CD9067-5D2F-40AC-99EB-9E82370FD43EQ51181744-00762447-8179-4114-9DF4-AAEA94A4056B
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Daisuke Miyoshi
@ast
Daisuke Miyoshi
@en
Daisuke Miyoshi
@es
Daisuke Miyoshi
@sl
type
label
Daisuke Miyoshi
@ast
Daisuke Miyoshi
@en
Daisuke Miyoshi
@es
Daisuke Miyoshi
@sl
prefLabel
Daisuke Miyoshi
@ast
Daisuke Miyoshi
@en
Daisuke Miyoshi
@es
Daisuke Miyoshi
@sl
P108
P106
P1153
6601952736
P21
P31
P496
0000-0002-4308-0499
P569
2000-01-01T00:00:00Z