G.M. Palowitch scite author profile

SignificanceConversion of ribonucleotides to the 2′-deoxyribonucleotides required for DNA biosynthesis is catalyzed by ribonucleotide reductases (RNRs) via a free-radical mechanism. Known types of RNRs all depend on redox-active transition metals—manganese, iron, or cobalt—for radical initiation. Pathogenic bacteria are challenged by transition metal sequestration and infliction of oxidative stress by their hosts, and the deployment of multiple RNRs with different metal requirements and radical-initiating oxidants is a known bacterial countermeasure. A class I RNR from two bacterial pathogens completely lacks transition metals in its active state and uses a tyrosine-derived dihydroxyphenylalanine radical as its initiator, embodying a novel tactic to combat transition metal- and oxidant-mediated innate immunity and reinforcing bacterial RNRs as potential antibiotic targets.

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Structures of Class Id Ribonucleotide Reductase Catalytic Subunits Reveal a Minimal Architecture for Deoxynucleotide Biosynthesis

Rose

Maggiolo

McBride

et al. 2019

Biochemistry

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S2Materials. Yeast extract, tryptone, and isopropyl-β-D-thiogalactopyranoside (IPTG) were purchased from DOT Scientific. 4-(2-Hydroxyethyl)-1-piperazineethanesulfonic acid (HEPES), glycerol, and imidazole, were purchased from Fisher Scientific. Kanamycin was purchased from Teknova. Sodium chloride (NaCl), sodium hydroxide (NaOH), ammonium chloride (NH 4 Cl) and hydrochloric acid (HCl) were purchased from EMD Millipore. Dithiothreitol (DTT) and 1,4-dihydroxynapthalene (NQ) were purchased from Alfa Aeser. Ni II -nitrilotriacetic acid agarose (Ni-NTA) resin and 96-well crystallography screens were purchased from Qiagen. All other chemicals used were purchased from Sigma Aldrich. Oligonucleotide primers were purchased from Integrated DNA Technologies. PCR reagents, restriction enzymes/buffers, and T4 DNA ligase were purchased from New England Biolabs. Escherichia coli (Ec) DH5 α, BL21 (DE3), and the pET-28a(+) vector were purchased from Novagen. All crystallography supplies were purchased from Qiagen and Hampton Research.

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Structure-Function Relationships in Assembly of the Radical-Initiating Cofactors of Class Ia–e Ribonucleotide Reductases

Rose

Palowitch

Kai

et al. 2020

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Conformational Changes in Complement Component 3 Upon Activation or Thrombomodulin Binding

DeHelian

Palowitch

Fritzinger

et al. 2016

Biophysical Journal

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The complement system is a major component of innate immunity and its activation depends on component C3. Complement component C3 is a multidomain protein which can be activated to C3b via any of three activation pathways as the third step in a proteolytic cascade. Once active, C3b continues the activation cascade which eventually leads to creation of a membrane attack complex (MAC) that is able to lyse bacteria and damage host cells. When misregulated, MAC can also attack healthy cells. Due to the complex nature of the activation of the complement system, the more intricate molecular details have not yet been elucidated, but several regulators are known. One of these regulators is thrombomodulin (TM) which is better known for its role in regulating blood clotting. Several in vivo studies have shown that the lectin-like domain of TM interferes with complement activation. Our in vitro work has shown that TM can bind to C3, and we have used hydrogen/deuterium exchange mass spectrometry (HDXMS) and fluorescence assays to begin to understand the effect of TM binding on C3.

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Crystal Structure of the Class Ie Ribonucleotide Reductase Beta Subunit from Aerococcus urinae in Activated Form with Thiocyanate Bound

Palowitch¹,

Boal²

2018

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G.M. Palowitch

Metal-free class Ie ribonucleotide reductase from pathogens initiates catalysis with a tyrosine-derived dihydroxyphenylalanine radical

Structures of Class Id Ribonucleotide Reductase Catalytic Subunits Reveal a Minimal Architecture for Deoxynucleotide Biosynthesis

Structure-Function Relationships in Assembly of the Radical-Initiating Cofactors of Class Ia–e Ribonucleotide Reductases

Conformational Changes in Complement Component 3 Upon Activation or Thrombomodulin Binding

Crystal Structure of the Class Ie Ribonucleotide Reductase Beta Subunit from Aerococcus urinae in Activated Form with Thiocyanate Bound

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