Összes fotó(1)
Fontos dokumentumok
FD4
Fluorescein isothiocyanate–dextran
average mol wt 3,000-5,000
Szinonimák:
FITC–Dextran
Bejelentkezésa Szervezeti és Szerződéses árazás megtekintéséhez
Összes fotó(1)
About This Item
Javasolt termékek
biológiai forrás
synthetic
Minőségi szint
konjugátum
FITC conjugate
Forma
powder
molekulatömeg
average mol wt 3,000-5,000
a címkézés mértéke
0.001-0.020 mol FITC per mol glucose
technika/technikák
HPLC: suitable
szín
light yellow to dark orange
oldhatóság
H2O: 25 mg/mL
alkalmasság
suitable for HPLC
suitable for fluorescence indicator
suitable for fluorescent labeling techniques
alkalmazás(ok)
life science and biopharma
metabolomics
microbiology
pharmaceutical
tárolási hőmérséklet
2-8°C
Looking for similar products? Látogasson el ide Útmutató a termékösszehasonlításhoz
Általános leírás
FITC-Dextran, also known as fluorescein isothiocyanate-labeled dextran, is a versatile molecular marker extensively applied in cell and tissue research, encompassing biochemical investigations. This compound is the result of linking the fluorescent FITC dye with dextran, a polysaccharide composed of branching glucose molecules of varied lengths. FITC-Dextrans are instrumental in the examination of cell and tissue permeability, providing vital quantitative data, making them indispensable in both biomedical and biochemical research.
In biochemical investigations focused on the blood-brain barrier (BBB), FITC-Dextran, particularly the variant with an average molecular weight of 4000, holds a central role. It serves as a dependable tool for evaluating the permeability of solutes, ions, and proteins across the BBB, facilitating an improved understanding of the barrier′s integrity and any potential disruptions. This contribution to biochemical exploration is invaluable in shedding light on the brain′s defense mechanisms.
Additionally, FITC-Dextran plays a pivotal role in studies related to cell permeability within the area of biochemical research. This extends to the assessment of BBB permeability and the extent of disruptions within the BBB, aspects that are fundamental to neuroscience and drug delivery research. These biochemical research facets are essential for comprehending disease mechanisms and formulating effective therapeutic strategies.
Furthermore, FITC-Dextran is a cornerstone in cardiovascular, microcirculation, and perfusion studies. It operates as a fluorescent flux tracer compound, allowing for the measurement of critical processes like blood flow, membrane integrity, vascular drainage, and renal elimination. In conclusion, FITC-Dextran proves to be an indispensable asset in the fields of biology, biochemistry, and medicine, offering unparalleled insights into the intricacies of cellular and tissue permeability, the integrity of the blood-brain barrier, and the understanding of diverse physiological and pathological processes.
In biochemical investigations focused on the blood-brain barrier (BBB), FITC-Dextran, particularly the variant with an average molecular weight of 4000, holds a central role. It serves as a dependable tool for evaluating the permeability of solutes, ions, and proteins across the BBB, facilitating an improved understanding of the barrier′s integrity and any potential disruptions. This contribution to biochemical exploration is invaluable in shedding light on the brain′s defense mechanisms.
Additionally, FITC-Dextran plays a pivotal role in studies related to cell permeability within the area of biochemical research. This extends to the assessment of BBB permeability and the extent of disruptions within the BBB, aspects that are fundamental to neuroscience and drug delivery research. These biochemical research facets are essential for comprehending disease mechanisms and formulating effective therapeutic strategies.
Furthermore, FITC-Dextran is a cornerstone in cardiovascular, microcirculation, and perfusion studies. It operates as a fluorescent flux tracer compound, allowing for the measurement of critical processes like blood flow, membrane integrity, vascular drainage, and renal elimination. In conclusion, FITC-Dextran proves to be an indispensable asset in the fields of biology, biochemistry, and medicine, offering unparalleled insights into the intricacies of cellular and tissue permeability, the integrity of the blood-brain barrier, and the understanding of diverse physiological and pathological processes.
Alkalmazás
Dextran labeled with fluorescein isothiocyanate for possible use in perfusion studies in animals.
Dextran labeled with fluorescein isothiocyanate has been used:
- as a tracer molecule in membrane permeability study
FITC-dextran is used extensively in microcirculation and cell permeability research utilizing microfluorimetry. FITC-dextran has been used to study plant cell wall porosity and capillary permeability. Plasma proteins have been shown not to bind to FITC-dextran.
FITC-dextran is used in cardiovascular, microcirculation, perfusion, cell monolayer and cell membrane permeability research as fluorescent flux tracer compound that supports the measurement of processes such as blood flow, membrane damage, vascular drainage and renal elimination. Small FITC-dextrans are also used to measure processes such as endocytosis and cell junction permeability. 5kDa FITC-dextran may be used to calibrate microscale diffusion measurements. 5kDa FITC-dextran may be used to measure gut permeability in gut barrier dysfunction research.
Biokémiai/fiziológiai hatások
FITC-Dextran serves as a versatile fluorescent tracer extensively used in biological and physiological research. Its primary actions encompass the assessment of permeability in biological barriers, such as the blood-brain barrier, cell membranes, and vascular walls. It is also utilized to investigate cellular uptake mechanisms, endocytosis, and cell junction permeability, focussing on essential cellular processes. FITC-Dextran aids in measuring blood flow, vascular drainage, and renal elimination, providing insights into microcirculation and capillary dynamics. Further, this marker is also instrumental in understanding tissue and organ characteristics and can serve as a valuable tool for tracing molecules, contributing to the exploration of a wide array of biochemical phenomena.
Tulajdonságok és előnyök
- Suitable for Biochemical and Biomedical research
- Versatile and adaptable for wide variety of laboratory and research applications
Elkészítési megjegyzés
Sigma typically tests the solubility of FITC dextrans in water at concentrations at or above 25 mg/ml. Solutions should be protected from light. In vivo, FITC-dextran is stable for more than 24 hours.
Egyéb megjegyzések
For additional information on our range of Biochemicals, please complete this form.
To gain a comprehensive understanding of our extensive range of Dextrans for your research, we encourage you to visit our Carbohydrates Category page.
összehasonlítható termékek
Product No.
Leírás
Árazás
Figyelmeztetés
Warning
Figyelmeztető mondatok
Óvintézkedésre vonatkozó mondatok
Veszélyességi osztályok
Eye Irrit. 2 - Skin Irrit. 2 - STOT SE 3
Célzott szervek
Respiratory system
Tárolási osztály kódja
11 - Combustible Solids
WGK
WGK 3
Lobbanási pont (F)
Not applicable
Lobbanási pont (C)
Not applicable
Egyéni védőeszköz
Eyeshields, Gloves, type N95 (US)
Válasszon a legfrissebb verziók közül:
Már rendelkezik ezzel a termékkel?
Az Ön által nemrégiben megvásárolt termékekre vonatkozó dokumentumokat a Dokumentumtárban találja.
Az ügyfelek ezeket is megtekintették
Dongjoo Kim et al.
Scientific reports, 8(1), 168-168 (2018-01-11)
Nasal route drug administration for local and systemic delivery of many therapeutics has received attention because the nasal cavity is highly vascularized and provides a large surface area for drug absorption. However, nasal mucosa exhibits limited permeability to polar molecules.
M Kristina Hamilton et al.
American journal of physiology. Gastrointestinal and liver physiology, 308(10), G840-G851 (2015-03-10)
A causal relationship between the pathophysiological changes in the gut epithelium and altered gut microbiota with the onset of obesity have been suggested but not defined. The aim of this study was to determine the temporal relationship between impaired intestinal
Younggeon Jin et al.
American journal of physiology. Cell physiology, 311(6), C996-C1004 (2016-10-21)
Intestinal anoxia/reoxygenation (A/R) injury induces loss of barrier function followed by epithelial repair. Myosin light chain kinase (MLCK) has been shown to alter barrier function via regulation of interepithelial tight junctions, but has not been studied in intestinal A/R injury.
Akihiro Watari et al.
Scientific reports, 7(1), 14514-14514 (2017-11-08)
Claudins are key functional and structural components of tight junctions (TJs) in epithelial cell sheets. The C-terminal fragment of Clostridium perfringens enterotoxin (C-CPE) binds to claudin-4 and reversibly modulates intestinal TJ seals, thereby enhancing paracellular transport of solutes. However, the
Nathan J Klingensmith et al.
Shock (Augusta, Ga.), 50(2), 178-186 (2017-10-13)
Honokiol is a biphenolic isolate extracted from the bark of the magnolia tree that has been used in traditional Chinese and Japanese medicine, and has more recently been investigated for its anti-inflammatory and antibacterial properties. Honokiol has previously been demonstrated
Cikkek
Explore FITC-labelled polysaccharides and their properties, including impact of molecular weight on molecule dimensions.
Related Content
Dextran is a polymer of anhydroglucose. It is composed of approximately 95% alpha-D-(166) linkages. The remaining (163) linkages account for the branching of dextran.
Tudóscsoportunk valamennyi kutatási területen rendelkezik tapasztalattal, beleértve az élettudományt, az anyagtudományt, a kémiai szintézist, a kromatográfiát, az analitikát és még sok más területet.
Lépjen kapcsolatba a szaktanácsadással