Labelling Review row-Online
Labelling Review row-Online
Labelling Review row-Online
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Kappa Probe<br />
5.5 mL PB0645 P<br />
For In Vitro Diagnostic Use<br />
Application<br />
Kappa Probe is used in conjunction with Lambda Probe for the detection of<br />
antibody producing B cells in formalin-fixed, paraffin-embedded tissue.<br />
B cell neoplasms are thought to arise from a single transformed cell<br />
(monoclonal), whereas reactive states result in proliferation of a number of<br />
B cells (polyclonal). Since immunoglobulins from the same B cell contain<br />
either Kappa or Lambda light chains, light chain restriction or monoclonality<br />
can be used to make the distinction between reactive and neoplastic B cell<br />
proliferations.<br />
Components<br />
Ready-to-use fluorescein-conjugated oligonucleotide probe directed to<br />
Kappa light chain messenger RNA in formalin-fixed, paraffin-embedded<br />
tissue. Optimized for use with Bond Polymer Refine Detection (DS9800) and<br />
Anti-Fluorescein Antibody (AR0833/AR0222).<br />
Human tonsil: in situ hybridization for kappa mRNA using Kappa Probe, Anti-Flourescein<br />
Antibody and Bond Polymer Refine Detection.<br />
Lambda Probe<br />
5.5 mL PB0669 P<br />
For In Vitro Diagnostic Use<br />
Components<br />
Lambda Probe is used in conjunction with Kappa Probe for the detection of<br />
antibody producing B cells in formalin-fixed, paraffin-embedded tissue. B cell<br />
neoplasms are thought to arise from a single transformed cell (monoclonal),<br />
whereas reactive states result in proliferation of a number of B cells<br />
(polyclonal). Since immunoglobulins from the same B cell contain either Kappa<br />
or Lambda light chains, light chain restriction or monoclonality can be used to<br />
make the distinction between reactive and neoplastic B cell proliferations.<br />
Application<br />
Ready-to-use fluorescein-conjugated oligonucleotide probe directed to<br />
Lambda light chain messenger RNA in formalin-fixed, paraffin-embedded<br />
tissue. Optimized for use with Bond Polymer Refine Detection (DS9800) and<br />
Anti-Fluorescein Antibody (AR0833/AR0222) on the Bond system.<br />
Human Tonsil: in situ hybridization for lambda mRNA using Lambda Probe, Anti-Flourescein<br />
Antibody and Bond Polymer Refine Detection.<br />
RNA Negative Control Probe<br />
5.5 mL PB0809 P<br />
For In Vitro Diagnostic Use<br />
Components<br />
RNA Negative Control Probe is a single oligonucleotide, designed from<br />
zebra fish DNA and analyses using Basic Local Alignment Search Tool<br />
(BLAST) analysis to confirm that the sequence bears no homology with any<br />
human sequences. Optimized for use with Bond Polymer Refine Detection<br />
(DS9800) and Anti-Fluorescein Antibody (AR0833/AR0222).<br />
Application<br />
The RNA Negative Control Probe is generated with a fluorescein label using<br />
the same procedures as applied to the other oligonucleotide probes that are<br />
used in the detection of RNA on Bond. Therefore, RNA Negative Control<br />
Probe is ideal as a negative control probe for RNA ISH on Bond.<br />
RNA Positive Control Probe<br />
5.5 mL PB0785 P<br />
For In Vitro Diagnostic Use<br />
Components<br />
Ready-to-use fluorescein-conjugated oligonucleotide probe directed to the<br />
Poly(A) tail of messenger RNA in formalin-fixed, paraffin-embedded tissue.<br />
Optimized for use with Bond Polymer Refine Detection (DS9800) and Anti-<br />
Fluorescein Antibody (AR0833/AR0222).<br />
Application<br />
RNA is very susceptible to degradation by RNases, therefore, the RNA<br />
Positive Control Probe is ideally used as a screening tool to detect the<br />
preservation of mRNA in cells.<br />
Staining with the RNA Positive Control Probe should result in dark b<strong>row</strong>n<br />
nuclear staining with some cytoplasmic staining, depending on the<br />
translational activity of the cell.<br />
Stringency Wash<br />
6.25 mL AR0633 P<br />
For In Vitro Diagnostic Use<br />
Components<br />
The Stringency Wash Solution is a formamide mixture used with the Bond<br />
DNA Probes. This solution reduces non-specific hybridization of DNA<br />
probes.<br />
Application<br />
In situ hybridization (ISH) allows the detection and visualization of specific<br />
nucleic acids in tissue sections. The Stringency Wash Solution is intended<br />
for use with biotin conjugated DNA probes to reduce non-specific DNA<br />
hybridization in formalin-fixed, paraffin-embedded tissue using the automated<br />
Bond system.<br />
F Frozen I Immunofluorescence E Electron microscopy<br />
P Paraffin C Flow cytometry O Other applications<br />
W Western blotting<br />
/47<br />
Bond