Maximizing in vivo target clearance by design of pH-dependent target binding antibodies with altered affinity to FcRn.

Antibodies with pH-dependent binding to both target antigens and neonatal Fc receptor (FcRn) provide an alternative tool to conventional neutralizing antibodies, particularly for therapies where reduction in antigen level is challenging due to high target burden. However, the requirements for optimal binding kinetic framework and extent of pH dependence for these antibodies to maximize target clearance from circulation are not well understood. We have identified a series of naturally-occurring high affinity antibodies with pH-dependent target binding properties.

Synthesis of aminomethyl- and bis-aminomethyl-fluorescein energy transfer terminators.

Synthesis of aminomethyl and bis-aminomethylfluorescein derived energy transfer terminators is described.

Synthesis of novel piperidinyl linker based energy transfer terminators and their potential use in DNA sequencing.

Synthesis of novel piperidinyl linker based ET cassettes and terminators is described These novel terminators are evaluated in the DNA sequencing experiments using thermostable DNA polymerase.

Negatively charged, dye labeled-dideoxynucleotides for "direct-load" DNA sequencing.

A four-color set of negatively charged, single dye as well as energy transfer dye labeled-ddNTPs were synthesized and evaluated in combination with a novel polymerase in a "direct-load" DNA sequencing, obviating the laborious and time consuming post-reaction work-up.

Synthesis of novel tyrosinyl FRET cassettes, terminators, and their potential use in DNA sequencing.

Fluorescence resonance energy transfer (FRET) dye labeled cassettes and terminators with one or more donor dyes (fluorescein) and acceptor dye (rhodamine dyes) with benzofuran or tyrosine linker moieties were synthesized. These terminators were evaluated for their energy transfer and DNA sequencing potential using thermostable DNA polymerase.

Efficient incorporation of positively charged 2', 3'-dideoxynucleoside-5'-triphosphates by DNA polymerases and their application in 'direct-load' DNA sequencing.

A series of charge-modified, dye-labeled 2', 3'-dideoxynucleoside-5'-triphosphates have been synthesized and evaluated as reagents for dye-terminator DNA sequencing. Unlike the commonly used dye-labeled terminators, these terminators possess a net positive charge and migrate in the opposite direction to dye-labeled Sanger fragments during electrophoresis. Post-sequencing reaction purification is not required to remove unreacted nucleotide or associated breakdown products prior to electrophoresis.

Synthesis and application of charge-modified dye-labeled dideoxynucleoside-5'-triphosphates to 'direct-load' DNA sequencing.

A novel series of charge-modified, dye-labeled 2',3'-dideoxynucleoside-triphosphate terminators were synthesized and evaluated as reagents for DNA sequencing. These terminators possess an advantage over existing reagents in that no purification is required to remove unreacted nucleotide or associated breakdown products prior to electrophoretic separation of the sequencing fragments. This obviates the need for a time consuming post-reaction work up, allowing direct loading of DNA sequencing reaction mixtures onto a slab gel.

Utility of thiol-cross-linked fluorescent dye labeled terminators for DNA sequencing.

Dipivaloyl-5-carboxyfluorescein N-hydroxysuccinimidyl ester 1 and 5-propargylamino-2',3'-dideoxyuridine triphosphate 5 were modified with maleimide, haloacetamide, and sulfhydryl reactive functional groups to participate in cross-conjugation reactions via sulfide bonds to generate fluorescently labeled, thioether cross-conjugated terminators 10 and 11. Their DNA sequencing potential was compared with an amide cross-conjugated terminator 13, synthesized by directly coupling 5-carboxyfluorescein NHS ester with 18-ddUTP 9. These terminators (10, 11, and 13) in combination with the Thermo Sequenase II DNA polymerase, in thermal cycle sequencing experiments, revealed that the thioether cross-conjugated terminator 10 and amide cross-conjugated terminator 13 served as good terminating substrates, generating satisfactory single-color gel images and electropherograms, while the other thioether cross-conjugated and maleimide derived one 11 underwent unexpected pH and temperature induced decomposition without showing fluorescent signatures for incorporation.