Jolyn Pan scite author profile

DNA ligases, the enzymes responsible for joining breaks in the phosphodiester backbone of DNA during replication and repair, vary considerably in size and structure. The smallest members of this enzyme class carry out their functions with pared-down protein scaffolds comprising only the core catalytic domains. Here we use sequence similarity network analysis of minimal DNA ligases from all biological super kingdoms, to investigate their evolutionary origins, with a particular focus on bacterial variants. This revealed that bacterial Lig C sequences cluster more closely with Eukaryote and Archaeal ligases, while bacterial Lig E sequences cluster most closely with viral sequences. Further refinement of the latter group delineates a cohesive cluster of canonical Lig E sequences that possess a leader peptide, an exclusively bacteriophage group of T7 DNA ligase homologs and a group with high similarity to the Chlorella virus DNA ligase which includes both bacterial and viral enzymes. The structure and function of the bacterially-encoded Chlorella virus homologs were further investigated by recombinantly producing and characterizing, the ATP-dependent DNA ligase from Burkholderia pseudomallei as well as determining its crystal structure in complex with DNA. This revealed that the enzyme has similar activity characteristics to other ATP-dependent DNA ligases, and significant structural similarity to the eukaryotic virus Chlorella virus including the positioning and DNA contacts of the binding latch region. Analysis of the genomic context of the B. pseudomallei ATP-dependent DNA ligase indicates it is part of a lysogenic bacteriophage present in the B. pseudomallei chromosome representing one likely entry point for the horizontal acquisition of ATP-dependent DNA ligases by bacteria.

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New Cysteine Covalent Modification Strategies Enable Advancement of Proteome‐wide Selectivity of Kinase Modulators

Guan

Williams

Pan

et al. 2021

Asian J Org Chem

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There has been tremendous progress in covalent inhibitors as evidenced by the ascent of innovative electrophilic warheads with suppressed non-specific reactivity but enhanced capacity for proximity-driven covalent reactions with nucleophilic residues in the targeted site. Kinases, a central player in cancers, autoimmune disorders and chronic diseases, represent a highly targeted class of enzymes by covalent inhibitors. However, innovative strategies to afford high selectivity in target recognition remain a pressing need. This minireview focuses on four promising strategies to achieve superior target selectivity through rational design of the covalent engagement. Special emphasis is placed on examples where the selectivity had arisen by complementing the reactivity of protein cysteines with electrophilic warheads specified for distinct covalent chemistry, or inspired from native electrophile signalling in cells.[a] I. Guan

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Constant domain polymorphisms influence monoclonal antibody stability and dynamics

et al. 2023

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The constant regions of clinical monoclonal antibodies are derived from a select number of allotypes found in IgG subclasses. Despite a long-term acknowledgment that this diversity may impact both antibody function and developability, there is a lack of data on the stability of variants carrying these mutations. Here, we generated a panel of IgG1, IgG2, and IgG3 antibodies with 32 unique constant region alleles and performed a systematic comparison of stability using red edge excitation shift (REES). This technique exploits the fluorescent properties of tryptophan residues to measure antibody structural dynamics which predict flexibility and the propensity to unfold. Our REES measurements revealed broad stability differences

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Immunogenic fusion proteins induce neutralizing SARS-CoV-2 antibodies in the serum and milk of sheep

Jacobson

Kraakman

Wallace

et al. 2023

Biotechnology Reports

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Immunogenic fusion proteins induce neutralizing SARS-CoV-2 antibodies in the serum and milk of sheep

Jacobson

Kraakman

Wallace

et al. 2022

Preprint

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Antigen-specific polyclonal immunoglobulins derived from the serum, colostrum, or milk of immunized ruminant animals have potential as scalable therapeutics for the control of viral diseases such as COVID-19. Enhancing the efficacy of vaccine antigens to induce robust and specific antibody responses remains central to developing highly effective formulations. The direct fusion of immunoglobulin (IgG) Fc domains or other immune-stimulating proteins to antigens has shown promise in several mammalian species but has not yet been tested and optimized in commercially-relevant ruminant species. Here we show that the immunization of sheep with fusions of the receptor binding domain (RBD) of SARS-CoV-2 to ovine IgG2a Fc domains promotes significantly higher levels of antigen-specific antibodies compared to native RBD or full-length spike antigens. This antibody population was shown to contain elevated levels of neutralizing antibodies that suppress binding between the RBD and soluble hACE2 receptors in vitro. The parallel evaluation of a second immune-stimulating fusion candidate, Granulocyte-macrophage colony-stimulating factor (GM-CSF), induced high neutralizing responses in select animals but narrowly missed achieving significance at the group level. Furthermore, we demonstrate that the antibodies induced by these fusion antigens are transferred from maternal serum into colostrum/milk. These antibodies also demonstrate cross-neutralizing activity against diverse SARS-CoV-2 variants including delta and omicron. Our findings highlight a new pathway for recombinant antigen design in ruminant animals with applications in immune milk production and animal health.

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Jolyn Pan

Bacteriophage origin of some minimal ATP-dependent DNA ligases: a new structure from Burkholderia pseudomallei with striking similarity to Chlorella virus ligase

New Cysteine Covalent Modification Strategies Enable Advancement of Proteome‐wide Selectivity of Kinase Modulators

Constant domain polymorphisms influence monoclonal antibody stability and dynamics

Immunogenic fusion proteins induce neutralizing SARS-CoV-2 antibodies in the serum and milk of sheep

Immunogenic fusion proteins induce neutralizing SARS-CoV-2 antibodies in the serum and milk of sheep

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