This project deals with a method to optimize in vivo labeling using small fluorescent molecules via bioorthogonal reactions. The reaction used involves our unnatural amino acid 4-(6-methyl-s-tetrazin-3-yl)aminophenylalanine (AMT-Phe). The amino acid is site-specifically incorporated into GFP and then reacted with a labeled, strained trans-cyclooctene, resulting in a labeled protein. However...
Full Text:
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Engineering Bioorthogonal Reactions on Proteins in Live Cells
MelodieM. Machovina and Ryan A. Mehl
Labeling
This project deals with a method to optimize in vivo labeling using small fluorescent molecules via bioorthogonal reactions. The reaction used involves our unnatural amino acid 4-(6-methyl-s-tetrazin-3-yl)aminophenylalanine (AMT-Phe). The amino acid is site-specifically incorporated into GFP and then reacted with a labeled, strained trans-cyclooctene, resulting in a labeled protein. However...
Full Text:
Cells
MelodieM.
Machovina
and
Ryan
A.
Mehl
Labeling
of
biomolecules
This project deals with a method to optimize in vivo labeling using small fluorescent molecules via bioorthogonal reactions. The reaction used involves our unnatural amino acid 4-(6-methyl-s-tetrazin-3-yl)aminophenylalanine (AMT-Phe). The amino acid is site-specifically incorporated into GFP and then reacted with a labeled, strained trans-cyclooctene, resulting in a labeled protein. However...
Full Text:
.
Engineering Bioorthogonal Reactions on Proteins in Live Cells
MelodieM. Machovina and Ryan A. Mehl
Labeling
This project deals with a method to optimize in vivo labeling using small fluorescent molecules via bioorthogonal reactions. The reaction used involves our unnatural amino acid 4-(6-methyl-s-tetrazin-3-yl)aminophenylalanine (AMT-Phe). The amino acid is site-specifically incorporated into GFP and then reacted with a labeled, strained trans-cyclooctene, resulting in a labeled protein. However...
Full Text:
Cells
MelodieM.
Machovina
and
Ryan
A.
Mehl
Labeling
of
biomolecules
This project deals with a method to optimize in vivo labeling using small fluorescent molecules via bioorthogonal reactions. The reaction used involves our unnatural amino acid 4-(6-methyl-s-tetrazin-3-yl)aminophenylalanine (AMT-Phe). The amino acid is site-specifically incorporated into GFP and then reacted with a labeled, strained trans-cyclooctene, resulting in a labeled protein. However...
This project deals with a method to optimize in vivo labeling using small fluorescent molecules via bioorthogonal reactions. The reaction used involves our unnatural amino acid 4-(6-methyl-s-tetrazin-3-yl)aminophenylalanine (AMT-Phe). The amino acid is site-specifically incorporated into GFP and then reacted with a labeled, strained trans-cyclooctene, resulting in a labeled protein. However...
Rhodococcus fascians is a Gram-positive, pleiomorphic actinomycete that causes leafy gall formation in a wide range of plant hosts. This particular phytopathogen has been a focus of research at the Oregon State University Plant Clinic, a diagnostic laboratory. Phylogeny of R. fascians isolates obtained from Plant Clinic submissions was determined...
Dutch elm disease (DED) is a disease of elm trees caused by three species of Ascomycota fungi: Ophiostoma ulmi, Ophiostoma novo-ulmi, and Ophiostoma himal-ulmi. There are also two subspecies of O. novo-ulmi: subsp. americana and subsp. novo-ulmi. The pathogen is spread by bark beetles, which inhabit and traverse different elms....
Symbioses are a spectrum of interactions between organisms living in closeassociation. These intimate interactions range from mutualism, in which bothorganisms benefit, to parasitism, where one organism benefits at the expense ofthe other. Horizontal gene transfer is the acquisition of genes independent ofvertical transmission and demonstrably promotes the transition of bacteria...