Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:6.5.1.2 (DNA ligase)
 2,749 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The human DNA repair enzyme MUTYH excises mispaired adenine residues in oxidized DNA. Homozygous MUTYH mutations underlie the autosomal, recessive cancer syndrome MUTYH-associated polyposis. We report a MUTYH variant, p.C306W (c.918C>G), with a tryptophan residue in place of native cysteine, that ligates the [4Fe4S] cluster in a patient with colonic polyposis and family history of early age colon cancer. In bacterial MutY, the [4Fe4S] cluster is redox active, allowing rapid localization to target lesions by long-range, DNA-mediated signalling. In the current study, using DNA electrochemistry, we determine that wild-type MUTYH is similarly redox-active, but MUTYH C306W undergoes rapid oxidative degradation of its cluster to [3Fe4S]+, with loss of redox signalling. In MUTYH C306W, oxidative cluster degradation leads to decreased DNA binding and enzyme function. This study confirms redox activity in eukaryotic DNA repair proteins and establishes MUTYH C306W as a pathogenic variant, highlighting the essential role of redox signalling by the [4Fe4S] cluster.
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PMID:A human MUTYH variant linking colonic polyposis to redox degradation of the [4Fe4S]2+ cluster. 2991 46

Antibody-based diagnostic and therapeutic agents play a substantial role in medicine, especially in cancer management. A variety of chemical, genetic and enzymatic site-specific conjugation methods have been developed for equipping antibodies with effector molecules to generate homogeneous antibody conjugates with tailored properties. However, most of these methods are relatively complicated and expensive and require several reaction steps. Self-labeling proteins such as the SNAP-tag are an innovative solution for addressing these challenges. The SNAP-tag is a modified version of the human DNA repair enzyme alkylguanine-DNA alkyltransferase (AGT), which reacts specifically with O(6)-benzylguanine (BG)-modified molecules via irreversible transfer of an alkyl group to a cysteine residue. It provides a simple, controlled and robust site-specific method for labeling antibodies with different synthetic small effector molecules. Fusing a SNAP-tag to recombinant antibodies allows efficient conjugation of BG-containing substrates by autocatalytic, irreversible transfer of the alkyl group to a cysteine residue in the enzyme's active site under physiological conditions and with a 1:1 stoichiometry. This protocol describes how to generate site-specific SNAP-tag single-chain antibody fragment (scFv) conjugates with different types of BG-modified effector molecules. A specific example is included for the design and production of an scFv-photosensitizer conjugate and its characterization as an immuno-theranostic agent. This protocol includes DNA sequences encoding scFV-SNAP-tag fusion proteins and outlines strategies for expression, purification and testing of the resulting scFv-SNAP-tag-based immuno-conjugates. All experiments can be performed by a graduate-level researcher with basic molecular biology skills within an 8-week time frame.
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PMID:One-step site-specific antibody fragment auto-conjugation using SNAP-tag technology. 3160 98


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