Publications by authors named "Kedar G Patel"

Assembly of DNA parts into DNA constructs is a foundational technology in the emerging field of synthetic biology. An efficient DNA assembly method is particularly important for high-throughput, automated DNA assembly in biofabrication facilities and therefore we investigated one-step, scarless DNA assembly via ligase cycling reaction (LCR). LCR assembly uses single-stranded bridging oligos complementary to the ends of neighboring DNA parts, a thermostable ligase to join DNA backbones, and multiple denaturation-annealing-ligation temperature cycles to assemble complex DNA constructs.

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Clinical studies of idiotype (Id) vaccination in patients with lymphoma have established a correlation between the induced anti-Id antibody responses and favorable clinical outcomes. To streamline the production of an Id vaccine, we engineered a small diabody (Db) molecule containing both a B-cell-targeting moiety (anti-CD19) and a lymphoma Id. This molecule (αCD19-Id) was designed to penetrate lymph nodes and bind to noncognate B cells to form an antigen presentation array.

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Escherichia coli cell-free protein synthesis (CFPS) uses E. coli extracts to make active proteins in vitro. The basic CFPS reaction mixture is comprised of four main reagent components: (1) energy source and CFPS chemicals, (2) DNA encoding the protein of interest, (3) T7 RNA Polymerase (RNAP) for transcription, and (4) cell extract for translation.

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We present a cell-free protein synthesis (CFPS) platform and a one-step, direct conjugation scheme for producing virus-like particle (VLP) assemblies that display multiple ligands including proteins, nucleic acids, and other molecules. Using a global methionine replacement approach, we produced bacteriophage MS2 and bacteriophage Qβ VLPs with surface-exposed methionine analogues (azidohomoalanine and homopropargylglycine) containing azide and alkyne side chains. CFPS enabled the production of VLPs with yields of ~ 300 μg/mL and with 85% incorporation of methionine analogues without requiring a methionine auxotrophic production host.

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The unique immunoglobulin idiotype expressed on the surface of B lymphoma cells can be used as an effective antigen in tumor-specific vaccines when fused to immunostimulatory proteins and cytokines. A DNA vaccine encoding for an idiotype antibody single chain Fv (scFv) fragment fused to the Tetanus Toxin Fragment C (TTFrC) has been shown to induce protective anti-tumor responses. Protein-based strategies may be more desirable since they provide greater control over dosage, duration of exposure, and in vivo distribution of the vaccine.

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Antibody fragments (scFvs) fused to luciferase reporter proteins have been used as highly sensitive optical imaging probes. Gaussia princeps luciferase (GLuc) is an attractive choice for a reporter protein because it is small and bright and does not require ATP to stimulate bioluminescence-producing reactions. Both GLuc and scFv proteins contain multiple disulfide bonds, and consequently the production of active and properly folded GLuc-scFv fusions is challenging.

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Gaussia luciferase (GLuc) from the copepod Gaussia princeps is both the smallest and brightest known luciferase. GLuc catalyzes the oxidation of coelenterazine to produce an intense blue light but with a very short emission half-life. We report mutated GLucs with much longer luminescence half-lives that retain the same initial intensity as the wild-type enzyme.

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Ectopic expression of a defined set of transcription factors chosen from Oct3/4, Sox2, c-Myc, Klf4, Nanog, and Lin28 can directly reprogram somatic cells to pluripotency. These reprogrammed cells are referred to as induced pluripotent stem cells (iPSCs). To date, iPSCs have been successfully generated using lentiviruses, retroviruses, adenoviruses, plasmids, transposons, and recombinant proteins.

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A method for synthesizing DNA from 40-mer oligonucleotides, which we used to generate a 32-kb DNA fragment, is explained. DNA sequences are synthesized as approximately 500 bp fragments (synthons) in a two-step PCR reaction and cloned using ligation-independent cloning (LIC). Synthons are then assembled into longer full-length sequences in a stepwise manner.

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Type I polyketide synthase (PKS) genes consist of modules approximately 3-6 kb long, which encode the structures of 2-carbon units in polyketide products. Alteration or replacement of individual PKS modules can lead to the biosynthesis of 'unnatural' natural products but existing techniques for this are time consuming. Here we describe a generic approach to the design of synthetic PKS genes where facile cassette assembly and interchange of modules and domains are facilitated by a repeated set of flanking restriction sites.

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To exploit the huge potential of whole-genome sequence information, the ability to efficiently synthesize long, accurate DNA sequences is becoming increasingly important. An approach proposed toward this end involves the synthesis of approximately 5-kb segments of DNA, followed by their assembly into longer sequences by conventional cloning methods [Smith, H. O.

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The chromosomes of several widely used laboratory derivatives of Streptomyces coelicolor A3(2) were found to have 1.06 Mb inverted repeat sequences at their termini (i.e.

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