Exploring and Expanding the Protein Universe with Non-Canonical Amino Acids PDF Download
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Author: Gustavo Fuertes
Publisher: Frontiers Media SA
ISBN: 2832538029
Category : Science
Languages : en
Pages : 123
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Book Description
The site-specific incorporation of unnatural or non-canonical amino acids (ncAAs) into proteins is a universally important tool for systems bioengineering at the interface of chemistry, biology, and biotechnology. The synergistic use of ncAA and related technologies (e.g. Xeno nucleic acids) should enable: i) New opportunities to manipulate, design and elucidate protein structure, dynamics, and function. ii) A deeper understanding of natural and evolved translational systems and their importance for artificial biology. iii) The synthesis of novel biopolymers, creating a solid basis for synthetic cells, which is also an important technology in the production of new classes of medically relevant protein-based scaffolds. Research on reprogrammed protein translation has now reached an experimental and intellectual maturity: more than 200 ncAA (i.e. more than ten times larger variety than standard amino acids) have been introduced into proteins using different routes: genetic code expansion (GCE), selective pressure incorporation (SPI), chemical mutagenesis, protein semi-synthesis, and peptide synthesis.
Author: Gustavo Fuertes
Publisher: Frontiers Media SA
ISBN: 2832538029
Category : Science
Languages : en
Pages : 123
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Book Description
The site-specific incorporation of unnatural or non-canonical amino acids (ncAAs) into proteins is a universally important tool for systems bioengineering at the interface of chemistry, biology, and biotechnology. The synergistic use of ncAA and related technologies (e.g. Xeno nucleic acids) should enable: i) New opportunities to manipulate, design and elucidate protein structure, dynamics, and function. ii) A deeper understanding of natural and evolved translational systems and their importance for artificial biology. iii) The synthesis of novel biopolymers, creating a solid basis for synthetic cells, which is also an important technology in the production of new classes of medically relevant protein-based scaffolds. Research on reprogrammed protein translation has now reached an experimental and intellectual maturity: more than 200 ncAA (i.e. more than ten times larger variety than standard amino acids) have been introduced into proteins using different routes: genetic code expansion (GCE), selective pressure incorporation (SPI), chemical mutagenesis, protein semi-synthesis, and peptide synthesis.
Author: Simon J. Elsässer
Publisher: Methods in Molecular Biology
ISBN: 9781071632536
Category :
Languages : en
Pages : 0
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Book Description
Author: Frank Truong
Publisher:
ISBN:
Category : Amino acids
Languages : en
Pages : 210
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Book Description
Author: Nediljko Budisa
Publisher: Wiley-VCH
ISBN: 3527607099
Category : Science
Languages : en
Pages : 312
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Book Description
The ability to introduce non-canonical amino acids in vivo has greatly expanded the repertoire of accessible proteins for basic research and biotechnological application. Here, the different methods and strategies to incorporate new or modified amino acids are explained in detail, including a lot of practical advice for first-time users of this powerful technique. Novel applications in protein biochemistry, genomics, biotechnology and biomedicine made possible by the expansion of the genetic code are discussed and numerous examples are given. Essential reading for all molecular life scientists who want to stay ahead in their research.
Author: John Halonski
Publisher:
ISBN:
Category : Amino acids
Languages : en
Pages :
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Book Description
Proteins are capable of an astounding array of functions using only the 20 canonical amino acids; however, the ability to add new functional groups to the genetic code through the utilization of unnatural amino acids (UAAs) has greatly expanded our ability to study and manipulate proteins. By expanding the diversity of functional groups within proteins, a wide variety of applications in industry as well as in fields such as diagnostics, biochemistry, and materials science are now possible. These applications have further been expanded through the development and optimization of bioorthogonal reactions which can occur under physiological conditions with a high degree of specificity, allowing modulation of the structure and function of proteins within their natural state. Several applications of UAA technology involving bioorthogonal reactions will be explored in this thesis. Optimization of a previously developed bioorthogonal Glaser-Hay reaction between a protein and a fluorophore will be discussed. A further application of the Glaser-Hay reaction involving natural product synthesis will also be explored. The utilization of UAA technology to form trivalent conjugates containing multiple functionalities will be described. Furthermore, the development and optimization of organic reactions leading to the formation of trivalent structures will be explored with the intention of translating these reactions to biological systems. The ability to site-specifically immobilize a hyperthermophilic carboxylesterase enzyme onto a stabilizing resin will also be discussed and the benefits of protein immobilization will be demonstrated. Finally, the synthesis and development of novel TMS and aldehyde UAAs will be described and their applications will be explored. The applications highlighted in each chapter demonstrate some of the numerous possibilities that can be explored through modulation of the building blocks of proteins.
Author: Ingrid-Cristiana Gebura-Vreja
Publisher:
ISBN:
Category :
Languages : en
Pages : 161
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Book Description
The burgeoning field of genetic code expansion provides new tools for specifically labeling proteins for a variety of applications. Clickable non-canonical amino acids (ncAA) have been refined for almost-quantitative and highly selective reactions with complementary probes. In my thesis work I have adapted genetic code expansion for two biological questions. First, I used ncAA incorporation and click reaction to test the effect of fluorescent protein (FP) tagging on the nanoscale organization of target proteins. Second, I used these tools to generate a genetically-encoded scheme for specifi...
Author: Marina Rubini
Publisher:
ISBN:
Category :
Languages : en
Pages : 118
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Book Description
Author: Michael G. Hösl
Publisher:
ISBN:
Category :
Languages : en
Pages : 0
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Book Description
Author: Anzhi Yao
Publisher:
ISBN: 9781658495691
Category : Amino acids
Languages : en
Pages : 113
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Book Description
Author: Amrita Singh
Publisher:
ISBN:
Category :
Languages : en
Pages : 430
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Book Description
The field of protein engineering has been greatly augmented by the expansion of the genetic code using unnatural amino acids as well as the development of cell-free synthesis systems with high protein yield. Cell-free synthesis systems have improved considerably since they were first described almost 40 years ago. Residue specific incorporation of non-canonical amino acids into proteins is usually performed in vivo using amino acid auxotrophic strains and replacing the natural amino acid with an unnatural amino acid analog. Herein, we present an amino acid depleted cell-free protein synthesis system that can be used to study residue specific replacement of a natural amino acid by an unnatural amino acid analog. This system combines high protein expression yields with a high level of analog substitution in the target protein. To demonstrate the productivity and efficacy of a cell-free synthesis system for residue-specific incorporation of unnatural amino acids in vitro, we use this system to show that 5-fluorotryptophan and 6-fluorotryptophan substituted streptavidin retain the ability to bind biotin despite protein wide replacement of a natural amino acid for the amino acid analog. We envisage this amino acid-depleted cell-free synthesis system being an economical and convenient format for the high-throughput screening of a myriad of amino acid analogs with a variety of protein targets for the study and functional characterization of proteins substituted with unnatural amino acids when compared to the currently employed in vivo format. We use this amino acid depleted cell-free synthesis system for the directed evolution of streptavidin, a protein that finds wide application in molecular biology and biotechnology. We evolve streptavidin using in vitro compartmentalization in emulsions to bind to desthiobiotin and find, at the conclusion of our experiment, that our evolved streptavidin variants are capable of binding to both biotin and desthiobiotin equally well. We also discover a set of mutations for streptavidin that are potentially powerful stabilizing mutations that we believe will be of great use to the greater research community.
