Paul O. P. Ts'o

What is he best known for?

The fields of study he is best known for:

• DNA
• Gene
• Enzyme

His scientific interests lie mostly in Biochemistry, Stereochemistry, Nucleic acid, Aqueous solution and Crystallography. He works mostly in the field of Biochemistry, limiting it down to concerns involving Oligomer and, occasionally, Molecular biology, Biomolecule and Nanotechnology. Paul O. P. Ts'o does research in Stereochemistry, focusing on Nucleoside specifically.

Paul O. P. Ts'o works in the field of Nucleic acid, focusing on Xenobiology in particular. His Aqueous solution study incorporates themes from 6-methylpurine, 5-Bromouridine, Proton magnetic resonance and Purine. His research in the fields of Helix overlaps with other disciplines such as Nuclear magnetic resonance spectroscopy of nucleic acids.

His most cited work include:

• Nonionic nucleic acid alkyl and aryl phosphonates and processes for manufacture and use thereof (1044 citations)
• Linkage of proteins to nucleic acids (430 citations)
• Interaction and Association of Bases and Nucleosides in Aqueous Solutions (297 citations)

What are the main themes of his work throughout his whole career to date?

Paul O. P. Ts'o mainly focuses on Biochemistry, Molecular biology, Stereochemistry, Nucleic acid and Hamster. His research brings together the fields of Oligomer and Biochemistry. His Molecular biology research also works with subjects such as

• DNA together with Virology and Aqueous solution,
• Neoplastic transformation and related Germline mutation.

His work in Stereochemistry covers topics such as Oligonucleotide which are related to areas like Duplex. His biological study spans a wide range of topics, including Crystallography and Nucleic acid analogue. His studies deal with areas such as Cell culture, Cell and Embryo, Cell biology as well as Hamster.

He most often published in these fields:

• Biochemistry (25.78%)
• Molecular biology (23.05%)
• Stereochemistry (21.09%)

What were the highlights of his more recent work (between 1991-2018)?

• Biochemistry (25.78%)
• Oligonucleotide (10.94%)
• Nucleic acid (19.92%)

In recent papers he was focusing on the following fields of study:

His main research concerns Biochemistry, Oligonucleotide, Nucleic acid, Stereochemistry and Molecular biology. His Biochemistry research includes elements of Base and In vivo. His work carried out in the field of Oligonucleotide brings together such families of science as Oral administration, Duplex and Molecule, Organic chemistry, Oligomer.

The concepts of his Nucleic acid study are interwoven with issues in Covalent bond, Double stranded, Nucleotide and Titration. Paul O. P. Ts'o focuses mostly in the field of Stereochemistry, narrowing it down to topics relating to DNA and, in certain cases, Gel electrophoresis. Paul O. P. Ts'o has researched Molecular biology in several fields, including Hybridization probe, Enzyme assay, RNA, Interferon and Messenger RNA.

Between 1991 and 2018, his most popular works were:

• Ligands to enhance cellular uptake of biomolecules (104 citations)
• Conjugates of glycosylated/galactosylated peptide, bifunctional linker, and nucleotidic monomers/polymers, and related compositions and methods of use (65 citations)
• Triplex formation of an oligonucleotide containing 2'-O-methylpseudoisocytidine with a DNA duplex at neutral pH (62 citations)

In his most recent research, the most cited papers focused on:

• DNA
• Gene
• Enzyme

His primary scientific interests are in Oligonucleotide, Stereochemistry, Oligomer, Nucleic acid and Conjugate. His Oligonucleotide study deals with Organic chemistry intersecting with Active ingredient. Paul O. P. Ts'o interconnects Deoxyribonucleotide, Aqueous solution and A-DNA in the investigation of issues within Stereochemistry.

His work carried out in the field of Oligomer brings together such families of science as Biomolecule and Nanotechnology. He has included themes like Amino acid, Bifunctional, Covalent bond, Nucleotide and Peptide in his Nucleic acid study. His Intracellular study contributes to a more complete understanding of Biochemistry.

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