Rickettsia australis Probe qPCR Kit Ear TagsDescription Rickettsia australis Probe qPCR Kit is a PCR kit intended for research use in nucleic acid analysis under controlled laboratory conditions using probe based real time PCR. Purified DNA is directly amplified using sequence specific primers and probes. During amplification, fluorescence signals are generated through probe cleavage, allowing real time monitoring of amplification. The resulting signals may be used for comparative analysis of
Swissprot No P42892 Gene Accession BC117256 WB Predicted band size 87 kDa WB Positive control WB Recommended dilution 1000-5000 IHC predicted cell location Predicted cell location: Cytoplasm IHC positive control Positive control: Human brain IHC Recommed dilution Recommended dilution: 50-200 Storage
Jul 2008] Swissprot No Q9Y6X8 Gene Accession 22882 WB Predicted band size 92 kDa WB Positive control WB Recommended dilution 500-2000 IHC predicted cell location nan IHC positive control nan IHC Recommed dilution nan Storage
Alternaria triticin Probe Realtime PCR Kit User Manual
P290698-WB-1-P
Integrated with qPCR detection: Designed to work with SHENTEK® host cell DNA qPCR detection kits to provide a complete sample-to-result workflow
PER and CRY proteins heterodimerize and repress their own transcription by interacting in a feedback loop with CLOCK/ARNTL complexes
Full name FADS1 rabbit monoclonal antibody Alternative names 50 μl/100 μl Reactivity rabbit monoclonal Applications WB
Predicted to be involved in sodium-independent organic anion transport
an important tumor-suppressor gene region
Jul 2008] Swissprot No Q9HCU5 Gene Accession 10113 WB Predicted band size 45 kDa WB Positive control WB Recommended dilution 500-2000 IHC predicted cell location nan IHC positive control nan IHC Recommed dilution nan Storage
This product was previously listed under catalog number 15-1670 and is now updated to BF-55327850 for improved product management
The flat bottom clear polystyrene design supports bright-field microscopy and fluorescence imaging