Dynamic fluorescent imaging of human immunodeficiency virus type 1 gag in live cells by biarsenical labeling.
AuthorsRudner L, Nydegger S, Coren LV, Nagashima K, Thali M, Ott DE,
JournalJ Virol
PubMed ID15767407
'Human immunodeficiency virus type 1 (HIV-1) Gag is the primary structural protein of the virus and is sufficient for particle formation. We utilized the recently developed biarsenical-labeling method to dynamically observe HIV-1 Gag within live cells by adding a tetracysteine tag (C-C-P-G-C-C) to the C terminus of Gag in both ... More
Visualization of mRNA translation in living cells.
The role of mRNA localization is presumably to effect cell asymmetry by synthesizing proteins in specific cellular compartments. However, protein synthesis has never been directly demonstrated at the sites of mRNA localization. To address this, we developed a live cell method for imaging translation of beta-actin mRNA. Constructs coding for ... More
AuthorsTour O, Meijer RM, Zacharias DA, Adams SR, Tsien RY,
JournalNat Biotechnol
PubMed ID14625562
Studies of protein function would be facilitated by a general method to inactivate selected proteins in living cells noninvasively with high spatial and temporal precision. Chromophore-assisted light inactivation (CALI) uses photochemically generated, reactive oxygen species to inactivate proteins acutely, but its use has been limited by the need to microinject ... More
Tetracysteine genetic tags complexed with biarsenical ligands as a tool for investigating gap junction structure and dynamics.
AuthorsSosinsky GE, Gaietta GM, Hand G, Deerinck TJ, Han A, Mackey M, Adams SR, Bouwer J, Tsien RY, Ellisman MH,
JournalCell Commun Adhes
PubMed ID14681013
Gap junctions (GJ) are defined as contact regions between two adjacent cells containing tens to thousands of closely packed membrane channels. Cells dynamically modulate communication through GJ by regulating the synthesis, transport and turnover of these channels. Previously, we engineered a recombinant connexin43 (Cx43) by genetically appending a small tetracysteine ... More