VNIRTM DI-O All Products Cell Biology  VNIR 219 Description VNIRTM Di-O is cyanine based, lipophilic, green emitting fluorescent dye for labeling cell membranes. The dye is weakly fluorescent in aqueous media but exhibits high fluorescence and photostability in hydrophobic environment and while incorporated in membranes. It has low toxicity and high cell retention capability, due to which it can be used for cell tracking upto six generations. Di-O is often used along with Di-I for dual colour cell studies. Cat. No.: VNIR219 CAS No. 34215-57-1 Appearance Clear yellow solution Concentration 200µM in DMSO Spectral property Excitation: 484nm; Emission: 501nm (methanol) Storage conditions -20°C (protect from light) References Please let us know if you publish your research using VNIR TM Di-O. We can cite your reference here.

VNIRTM DI-I All Products Cell Biology  VNIR 218 Description VNIRTM Di-I is cyanine based, lipophilic fluorescent dye for labeling cell membranes. The dye is weakly fluorescent in aqueous media but exhibits high fluorescence and photostability in hydrophobic environment and while incorporated in membranes. It has low toxicity and high cell retention capability, due to which it can be used for cell tracking upto six generations. Di-I is extensively used for anterograde and retrograde labelling of neurons. Cat. No.: 218 CAS No. 41085-99-8 Appearance Clear pink solution Concentration 200µM in DMSO Spectral property Excitation: 549nm; Emission: 565nm (methanol) Storage conditions -20°C (protect from light) References Please let us know if you publish your research using VNIR TM Di-I. We can cite your reference here.

Detect Amyloid Plaques Of Alzheimer’s With Antibody-Like Sensitivity And Selectivity All Products Cell Biology  VNIR 217 VNIR AD (Aβ plaque stain) VNIRTM AD turn-on near-infrared (NIR) fluorescence probe for specific detection of β-amyloid (Aβ) aggregates. AD probe displays unambiguous selectivity towards Aβ aggregates compared to other toxic protein aggregates such as tau, α-synuclein (α-Syn) and islet amyloid polypeptide (IAPP). In addition, AD is nontoxic to neuronal cells and shows significant blood brain barrier permeability. Category No VNIR 217 Molecular Weight 512.39 Appearance Darm Purple to Red Powder Purity ≥98% Spectral Property Excitation/Emission= 521/654nm Solubility DMSO Storage conditions -20°C (protect from light References Please let us know if your publish your research using VNIRTM AD. We can Cite your reference here

VNIRTM ROS All Products Cell Biology  VNIR 216 Description VNIRTM ROS is a cell permeable, non toxic, NIR (near infrared) emitting turn-on fluorescent probe for detecting reactive oxygen species. VNIR TM ROS probe in the presence of reactive oxygen converts itself into a DNA binding fluorescent molecule emitting in the NIR region. The dye can detect both normal as well as elevated levels of reactive oxygen in primary as well as senescent cancer cells. Cat. No.: VNIR 216 Concentration 200µM in DMSO Appearance Yellow solution Spectral property Excitation: 564nm, Emission: 650nm [with ROS and DNA] Storage conditions -20°C (protect from light) References Please let us know if you publish your research using VNIRTM ROS. We can cite your reference here.

VNIRTM Mito DNA All Products Cell Biology  VNIR 215 Description VNIRTM Mito DNA is a far-red emitting, Bio-compatible, Cell permeable and photostable, turn-on fluorescent probe for studying mitochondria. The probe is membrane potential independent and selectively binds to Mitochondrial G-quadruplex in both live and fixed cells.This probe can be used to study structural and functional dynamics, and homeostasis of mtDNA GQs in living cells with minimal background interference and photodamage. Cat. No.: VNIR215 Concentration 200µM in DMSO Appearance Purple to red solution Storage conditions -20°C (protect from light) Spectral property Excitation: 643nm, Emission: 700nm Storage conditions -20°C (protect from light) References Please let us know if you publish your research using VNIR TM Mito DNA. We can cite your reference here.