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Query: UMLS:C0155339 (
Brown
)
12,436
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We have carried out a two-dimensional gel analysis of the actin system of
Dictyostelium
discoideum. Our results show that on the basis of isoelectric focusing, there is a single major [35S]methionine-labeled species which corresponds both to the actin purified by Uyemura et al. (Uyemura, D.,
Brown
, S.S., and Spudich, J.A. (1978) J. Biol. Chem. 253, 9088-9095) and to the Coomassie Blue staining species seen in whole cell lysates of the organism. We also detect a minor labeled actin species, x, which has no corresponding Coomassie Blue staining counterpart. This species turns over much more rapidly than the major actin and has one more positive charge. It is not labeled with [3H]acetate, whereas the major actin is. When D. discoideum RNA is added to a mRNA-dependent rabbit reticulocyte lysate protein translation system, only one major actin is seen, and this species corresponds to the major actin observed in vivo. If endogenous acetyl coenzyme A is removed from the translation system, a second major actin appears corresponding in position to x. These results indicate that in D. discoideum, there is present a single major actin species in addition to a small amount of a rapidly turning over actin which is a nonacetylated form of the major actin. Additional experiments examining these actins through the developmental cycle of the organism show no consistent differences with the results obtained using vegetative cells.
...
PMID:Acetylated and nonacetylated actins in Dictyostelium discoideum. 50 Jun 31
Severin is a 40-kDa Ca2+-activated protein from
Dictyostelium
that rapidly fragments and disassembles actin filaments in vitro (S.S.
Brown
, K. Yamamoto, and J.A. Spudich, J. Cell Biol. 93, 205-210, 1982; and K. Yamamoto, J.D. Pardee, J. Reidler, L. Stryer, and J.A. Spudich. J. Cell Biol. 95, 711-719, 1982). To determine if severin is colocalized with actin filaments in vivo, we have used the agar-overlay technique of S. Yumura, H. Mori, and Y. Fukui (J. Cell Biol. 99, 894-899, 1984) to examine the intracellular locations of severin and F-actin in vegetative
Dictyostelium
amoebae. In rounded cells taken from suspension culture severin colocalized with F-actin at cortical edges while maintaining an endoplasmic presence. Both severin and F-actin were present throughout nascent pseudopods of motile cells, while severin appeared concentrated at the leading edge of fully developed pseudopods. Amoebae feeding on a bacterial lawn formed large phagocytic vesicles that were surrounded by an extensive cell cortex rich in severin. Streaming cells entering aggregates during the
Dictyostelium
developmental cycle showed severin staining throughout the cytoplasm with F-actin at the cortex. The preferential localization of severin in cytoplasmic regions of vegetative cells undergoing extensive actin cytoskeletal rearrangement prompts consideration of a role for severin-mediated disruption of actin filament networks during pseudopod extension and phagocytosis.
...
PMID:Cytoimmunofluorescent localization of severin in Dictyostelium amoebae. 328 88
Severin is a protein from
Dictyostelium
that severs actin filaments in a Ca2+-dependent manner and remains bound to the filament fragments (
Brown
, S. S., K. Yamamoto, and J. A. Spudich , 1982, J. Cell Biol., 93:205-210; Yamamoto, K., J. D. Pardee , J. Reidler , L. Stryer , and J. A. Spudich , 1982, J. Cell Biol. 95:711-719). Further characterization of the interaction of severin with actin suggests that it remains bound to the preferred assembly end of the fragmented actin filaments. Addition of severin in molar excess to actin causes total disassembly of the filaments and the formation of a high-affinity complex containing one severin and one actin. This severin -actin complex does not sever actin filaments. The binding of severin to actin, measured directly by fluorescence energy transfer, requires micromolar Ca2+, as does the severing and depolymerizing activity reported previously. Once bound to actin in the presence of greater than 1 microM Ca2+, severin is not released from the actin when the Ca2+ is lowered to less than 0.1 microM by addition of EGTA. Tropomyosin, DNase I, phalloidin, and cytochalasin B have no effect on the ability of severin to bind to or sever actin filaments. Subfragment 1 of myosin, however, significantly inhibits severin activity. Severin binds not only to actin filaments, but also directly to G-actin, as well as to other conformational species of actin.
...
PMID:Ca2+-dependent binding of severin to actin: a one-to-one complex is formed. 642 34
Severin, a 40,000-dalton protein from
Dictyostelium
that disassembles actin filaments in a Ca2+ -dependent manner, was purified 500-fold to greater than 99% homogeneity by modifications of the procedure reported by
Brown
, Yamamoto, and Spudich (1982. J. Cell Biol. 93:205-210). Severin has a Stokes radius of 29 A and consists of a single polypeptide chain. It contains a single methionyl and five cysteinyl residues. We studied the action of severin on actin filaments by electron microscopy, viscometry, sedimentation, nanosecond emission anisotropy, and fluorescence energy transfer spectroscopy. Nanosecond emission anisotropy of fluoresence-labeled severin shows that this protein changes its conformation on binding Ca2+. Actin filaments are rapidly fragmented on addition of severin and Ca2+, but severin does not interact with actin filaments in the absence of Ca2+. Fluorescence energy transfer measurements indicate that fragmentation of actin filaments by severin leads to a partial depolymerization (t1/2 approximately equal to 30 s). Depolymerization is followed by exchange of a limited number of subunits in the filament fragments with the disassembled actin pool (t1/2 approximately equal to 5 min). Disassembly and exchange are probably restricted to the ends of the filament fragments since only a few subunits in each fragment participate in the disassembly or exchange process. Steady state hydrolysis of ATP by actin in the presence of Ca2+-severin is maximal at an actin: severin molar ratio of approximately 10:1, which further supports the inference that subunit exchange is limited to the ends of actin filaments. The observation of sequential depolymerization and subunit exchange following the fragmentation of actin by severin suggests that severin may regulate site-specific disassembly and turnover of actin filament arrays in vivo.
...
PMID:Mechanism of interaction of Dictyostelium severin with actin filaments. 689 49
