Search Results - "Tullman, Jennifer"

Recovery of an HMWP/hmwBP (pUL48/pUL47) complex from virions of human cytomegalovirus: subunit interactions, oligomer composition, and deubiquitylase activity by Tullman, Jennifer A, Harmon, Mary-Elizabeth, Delannoy, Michael, Gibson, Wade

“…We report that the human cytomegalovirus (HCMV) high-molecular-weight tegument protein (HMWP, pUL48; 253 kDa) and the HMWP-binding protein (hmwBP, pUL47; 110…”
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Strategies for Development of a Next-Generation Protein Sequencing Platform by Callahan, Nicholas, Tullman, Jennifer, Kelman, Zvi, Marino, John

“…Proteomic analysis can be a critical bottleneck in cellular characterization. The current paradigm relies primarily on mass spectrometry of peptides and…”
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A single amino acid substitution alters ClpS2 binding specificity by Bergonzo, Christina, Dharmadhikari, Kunal, Samuels, Emily, Christensen, Makenzie, Tullman, Jennifer

“…ClpS2 is a small protein under development as a probe for selectively recognizing N‐terminal amino acids of N‐degron peptide fragments. To understand the…”
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A ClpS-based N-terminal amino acid binding reagent with improved thermostability and selectivity by Tullman, Jennifer, Christensen, Makenzie, Kelman, Zvi, Marino, John P.

“…•Engineering thermostable into ClpS protein variants for biotechnology applications.•Thermostable ClpS variants retain original N-terminal amino acid…”
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Leveraging nature’s biomolecular designs in next-generation protein sequencing reagent development by Tullman, Jennifer, Marino, John P., Kelman, Zvi

“…Next-generation approaches for protein sequencing are now emerging that could have the potential to revolutionize the field in proteomics. One such sequencing…”
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Engineering ClpS for selective and enhanced N-terminal amino acid binding by Tullman, Jennifer, Callahan, Nicholas, Ellington, Benjamin, Kelman, Zvi, Marino, John P.

“…One of the central challenges in the development of single-molecule protein sequencing technologies is achieving high-fidelity sequential recognition and…”
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Real-time dynamic single-molecule protein sequencing on an integrated semiconductor device by Reed, Brian D, Meyer, Michael J, Abramzon, Valentin, Ad, Omer, Adcock, Pat, Ahmad, Faisal R, Alppay, Gün, Ball, James A, Beach, James, Belhachemi, Dominique, Bellofiore, Anthony, Bellos, Michael, Beltrán, Juan Felipe, Betts, Andrew, Bhuiya, Mohammad Wadud, Blacklock, Kristin, Boer, Robert, Boisvert, David, Brault, Norman D, Buxbaum, Aaron, Caprio, Steve, Choi, Changhoon, Christian, Thomas D, Clancy, Robert, Clark, Joseph, Connolly, Thomas, Croce, Kathren Fink, Cullen, Richard, Davey, Mel, Davidson, Jack, Elshenawy, Mohamed M, Ferrigno, Michael, Frier, Daniel, Gudipati, Saketh, Hamill, Stephanie, He, Zhaoyu, Hosali, Sharath, Huang, Haidong, Huang, Le, Kabiri, Ali, Kriger, Gennadiy, Lathrop, Brittany, Li, An, Lim, Peter, Liu, Stephen, Luo, Feixiang, Lv, Caixia, Ma, Xiaoxiao, McCormack, Evan, Millham, Michele, Nani, Roger, Pandey, Manjula, Parillo, John, Patel, Gayatri, Pike, Douglas H, Preston, Kyle, Pichard-Kostuch, Adeline, Rearick, Kyle, Rearick, Todd, Ribezzi-Crivellari, Marco, Schmid, Gerard, Schultz, Jonathan, Shi, Xinghua, Singh, Badri, Srivastava, Nikita, Stewman, Shannon F, Thurston, T R, Trioli, Philip, Tullman, Jennifer, Wang, Xin, Wang, Yen-Chih, Webster, Eric A G, Zhang, Zhizhuo, Zuniga, Jorge, Patel, Smita S, Griffiths, Andrew D, van Oijen, Antoine M, McKenna, Michael, Dyer, Matthew D, Rothberg, Jonathan M

“…Studies of the proteome would benefit greatly from methods to directly sequence and digitally quantify proteins and detect posttranslational modifications with…”
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Enzymatic protein switches built from paralogous input domains by Tullman, Jennifer, Nicholes, Nathan, Dumont, Matt R., Ribeiro, Lucas F., Ostermeier, Marc

“…ABSTRACT Protein switches have a variety of potential applications in biotechnology and medicine that motivate efforts to accelerate their development…”
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Protein switches identified from diverse insertion libraries created using S1 nuclease digestion of supercoiled-form plasmid DNA by Tullman, Jennifer, Guntas, Gurkan, Dumont, Matthew, Ostermeier, Marc

“…We demonstrate that S1 nuclease converts supercoiled plasmid DNA to unit‐length, linear dsDNA through the creation of a single, double‐stranded break in a…”
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Protein switch engineering by domain insertion by Kanwar, Manu, Wright, R Clay, Date, Amol, Tullman, Jennifer, Ostermeier, Marc

“…The switch-like regulation of protein activity by molecular signals is abundant in native proteins. The ability to engineer proteins with novel regulation has…”
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Design rules for protein switch construction and the creation of periplasmic binding protein-beta-lactamase switches by Tullman, Jennifer

“…Protein engineering techniques can be used to create novel allosterically regulated enzymes by fusing two naturally occurring proteins so that the activity of…”
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Tunable Assembly of Peptide-coated Gold Nanoparticles by Tullman, Jennifer A., Finney, William F., Lin, Yu-Jen, Bishnoi, Sandra Whaley

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A xylose-stimulated xylanase-xylose binding protein chimera created by random nonhomologous recombination by Ribeiro, Lucas Ferreira, Tullman, Jennifer, Nicholes, Nathan, Silva, Sérgio Ruschi Bergamachi, Vieira, Davi Serradella, Ostermeier, Marc, Ward, Richard John

“…Saccharification of lignocellulosic material by xylanases and other glycoside hydrolases is generally conducted at high concentrations of the final reaction…”
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Design rules for protein switch construction and the creation of periplasmic binding protein-beta-lactamase switches by Tullman, Jennifer

“…Protein engineering techniques can be used to create novel allosterically regulated enzymes by fusing two naturally occurring proteins so that the activity of…”
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Insertion of a xylanase in xylose binding protein results in a xylose-stimulated xylanase by Ribeiro, Lucas Ferreira, Nicholes, Nathan, Tullman, Jennifer, Ribeiro, Liliane Fraga Costa, Fuzo, Carlos Alessandro, Vieira, Davi Serradella, Furtado, Gilvan Pessoa, Ostermeier, Marc, Ward, Richard John

“…Product inhibition can reduce catalytic performance of enzymes used for biofuel production. Different mechanisms can cause this inhibition and, in most cases,…”
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