Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UNIPROT:P50583 (
asymmetrical
)
12,197
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Characteristic DNA endonuclease digest fragment electropherograms and restriction site maps permitted differentiation and genome structure analysis of 38 orthopoxviruses that included isolates of monkeypox virus from humans and animals, monkeypox white variants, variola,
vaccinia
, ectromelia, Tatera (gerbil) and raccoon poxviruses, and cowpox and camelpox viruses. HindIII cleavage sites mapped on the 38 virus genome DNAs plus SmaI, BglI, SacI, KpnI, XhoI, and SalI maps for variola (Harvey) and monkeypox (Copenhagen) virus DNAs were derived essentially by cross-hybridizations with monkeypox,
vaccinia
, and variola virus-cloned DNA restriction fragments, thus digest fragments could be assigned homologous regions on previously established genome maps. Salient of our observations, the DNA HindIII maps correlated to a high degree, but variations in middle and especially terminal DNA region cleavage sites provided a basis for discerning species, strains and variants. The extent of the inverted terminal repetitions (ITRs) for 37 DNAs were determined with HindIII, PvuI, SalI, and ClaI, plus nine more restriction enzymes for Bangladesh variola virus DNA by hybridizations with either the terminal tandemly repeated 70-bp segment or an EcoRI-PvuI near hairpin-end 75-bp segment from WR
vaccinia
virus. The opposite terminal regions of variola DNA were considerably
asymmetrical
compared to the large symmetrical ITRs of the other species examined. An apparent DNA inversion and concurrent deletion (1 kbp) with subsequent repair of DNA to original structure was suggested from right terminal region maps of four viruses chosen from a variola virus passage series in monkeys. Correlative with virus geographic distribution, two strains of monkeypox virus, each containing two variants, were differentiated by DNA profiles of isolates from smallpox-like disease (SLD) patients of the African rainforest region. The DNAs of five monkeypox viruses isolated from laboratory and zoo animals resembled most DNAs from SLD monkeypox viruses from Sierra Leone. A poxvirus from an American raccoon contained 40% DNA that did not cross-hybridize with orthopoxvirus DNA probes. The DNAs of recent isolates from a gerbil and from a camel each mapped as unique African orthopoxvirus species and differed from variola virus.
...
PMID:Orthopoxvirus DNA: a comparison of restriction profiles and maps. 299 3
Thymus development and T cell differentiation were studied in mouse chimaeras produced by aggregating pre-implantation embryos of thymus-deficient nude BALB/c (nu/nu) and wild-type C57BL/6 (+/+) mice and vice versa. Chimaeras showed mosaic distribution of skin and coat pigmentation, of hair follicles, of glucosephosphate isomerase within all tested organs and of lymphocytes expressing the different major transplantation antigens (H-2). When tested for their capacity to generate
vaccinia
virus-specific and self-H-2 specific cytotoxic T cells, all chimaeras of BALB/c (nu/nu) H-2d in equilibrium C57BL/6 (+/+) H-2b type generated T cells of one or both parental origins that were specific for virus and for self-H-2 of the +/+ (H-2b) type only. In contrast, some BALB/c (+/+) H-2d in equilibrium C57BL/6 (nu/nu) H-2b chimaeras generated
vaccinia
virus-specific cytotoxic T cells specific for either H-2d (+/+) type or for H-2b (nu/nu) type. These
asymmetrical
results can be interpreted to indicate the following: (i) The +/+ thymus part alone is functional, but because of
asymmetrical
cross-reactivities of anti-self-H-2 specificities, the observed T cell restriction phenotypes differ. (ii) Both nu/nu and +/+ thymus parts are functional but immune response defects may be exaggerated in such chimaeras producing unexpected non-responsiveness to
vaccinia
virus linked to H-2d in H-2b (+/+) in equilibrium H-2d (nu/nu).
...
PMID:Thymus differentiation and T-cell specificity in nu/nu +/+ mouse aggregation chimaeras. 660 49
Vaccinia
virus, the basis of the smallpox vaccine, is one of the largest viruses to replicate in humans. We have used in situ atomic force microscopy (AFM) to directly visualize fully hydrated, intact intracellular mature
vaccinia
virus (IMV) virions and chemical and enzymatic treatment products thereof. The latter included virion cores, core-enveloping coats, and core substructures. The isolated coats appeared to be composed of a highly cross-linked protein array. AFM imaging of core substructures indicated association of the linear viral DNA genome with a segmented protein sheath forming an extended approximately 16-nm-diameter filament with helical surface topography; enclosure of this filament within a 30- to 40-nm-diameter tubule which also shows helical topography; and enclosure of the folded, condensed 30- to 40-nm-diameter tubule within the core by a wall covered with peg-like projections. Proteins observed attached to the 30- to 40-nm-diameter tubules may mediate folding and/or compaction of the tubules and/or represent vestiges of the core wall and/or pegs. An accessory "satellite domain" was observed protruding from the intact core. This corresponded in size to isolated 70- to 100-nm-diameter particles that were imaged independently and might represent detached accessory domains. AFM imaging of intact virions indicated that IMV underwent a reversible shrinkage upon dehydration (as much as 2.2- to 2.5-fold in the height dimension), accompanied by topological and topographical changes, including protrusion of the satellite domain. As shown here, the chemical and enzymatic dissection of large,
asymmetrical
virus particles in combination with in situ AFM provides an informative complement to other structure determination techniques.
...
PMID:Structure of intracellular mature vaccinia virus visualized by in situ atomic force microscopy. 1274 90
The Tyr-X-X-Leu (YxxL) motif of the
vaccinia
virus F13L protein was examined for late (L) domain activity. The ability of an F13L deletion virus to form plaques was restored by PCR products containing single alanine substitutions within the motif and a YAAL construct but not by constructs lacking both the Y and L residues. Recombinant viruses possessing alanine substitutions in place of the tyrosine or the leucine residue in the YxxL motif demonstrated small,
asymmetrical
plaques. RNA interference-dependent depletion of Alix and TSG101 (host proteins involved in L domain-dependent protein trafficking) diminished extracellular enveloped virion production to various degrees, suggesting that the YxxL motif is a genuine L domain.
...
PMID:The vaccinia virus F13L YPPL motif is required for efficient release of extracellular enveloped virus. 1747 58
