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Citations & References (14)
Invitrogen™
FilmTracer™ SYPRO™ Ruby Biofilm Matrix Stain
F10318 FilmTracer™ SYPRO® Ruby biofilm matrix stain has been used to stain matrices of biofilms. This stain was originally usedRead more
| Catalog Number | Quantity |
|---|---|
| F10318 | 200 mL |
Catalog number F10318
Price (BRL)
-
Quantity:
200 mL
F10318 FilmTracer™ SYPRO® Ruby biofilm matrix stain has been used to stain matrices of biofilms. This stain was originally used as a gel stain that labels most classes of proteins, including glycoproteins, phosphoproteins, lipoproteins, calcium binding proteins, fibrillar proteins and other proteins that are difficult to stain. FilmTracer™ SYPRO® Ruby biofilm stain comes in a convenient, ready to use 1X concentration.
For Research Use Only. Not for use in diagnostic procedures.
Specifications
ColorRed
Detection MethodFluorescence
Dye TypeSYPRO™ Ruby
EmissionVisible
Excitation Wavelength Range450⁄610
For Use With (Equipment)Confocal Microscope, Fluorescence Microscope, Fluorescent Imager, Microplate Reader
FormLiquid
Product LineFilmTracer, Molecular Probes
Quantity200 mL
Shipping ConditionRoom Temperature
Label TypeFluorescent Dye
Product TypeBiofilm Matrix Stain
Unit SizeEach
Contents & Storage
5 ingredients, store at room temperature - may be exposed to light for a short period of time
Citations & References (14)
Citations & References
Abstract
Utilization of the mating scaffold protein in the evolution of a new signal transduction pathway for biofilm development.
Journal:MBio
PubMed ID:21221248
'Among the hemiascomycetes, only Candida albicans must switch from the white phenotype to the opaque phenotype to mate. In the recent evolution of this transition, mating-incompetent white cells acquired a unique response to mating pheromone, resulting in the formation of a white cell biofilm that facilitates mating. All of the
Impact of Environmental Conditions on the Form and Function of Candida albicans Biofilms.
Journal:
PubMed ID:23954841
'Candida albicans, like other pathogens, can form complex biofilms on a variety of substrates. However, as the number of studies of gene regulation, architecture, and pathogenic traits of C. albicans biofilms has increased, so have differences in results. This suggests that depending upon the conditions employed, biofilms may vary widely,
Identification of genes upregulated by the transcription factor Bcr1 that are involved in impermeability, impenetrability, and drug resistance of Candida albicans a/a biofilms.
Journal:Eukaryot Cell
PubMed ID:23563485
Candida albicans forms two types of biofilm, depending upon the configuration of the mating type locus. Although architecturally similar, a/a biofilms are impermeable, impenetrable, and drug resistant, whereas a/a and a/a biofilms lack these traits. The difference appears to be the result of an alternative matrix. Overexpression in a/a cells
Novel observations of Thiobacterium, a sulfur-storing Gammaproteobacterium producing gelatinous mats.
Journal:ISME J
PubMed ID:20220790
The genus Thiobacterium includes uncultivated rod-shaped microbes containing several spherical grains of elemental sulfur and forming conspicuous gelatinous mats. Owing to the fragility of mats and cells, their 16S ribosomal RNA genes have not been phylogenetically classified. This study examined the occurrence of Thiobacterium mats in three different sulfidic marine
Microrheology reveals microscale viscosity gradients in planktonic systems.
Journal:Proc Natl Acad Sci U S A
PubMed ID:33443173