Tag: dna replication
RFP-based method for real-time tracking of invasive bacteria in a heterogeneous population of cells
Quantification of bacterial invasion into eukaryotic cells is a prerequisite to unfold the molecular mechanisms of this vector’s perform to acquire insights for enhancing its effectivity. Invasion is historically quantified by antibiotic safety assays that require dilution plating and counting of colony-forming models rescued from contaminated cells. Nonetheless, to distinguish between connected and internalized micro…
Read MoreCytochrome C ELISA Kits from MyBioSource
The ELISA (enzyme-linked immunosorbent assay) is a widely used application for detecting and quantifying proteins and antigens from various samples. Target-specific ELISA kits are available from a variety of manufacturers and can help streamline your immunodetection experiments. Listed are ELISA Kits for the detection of cytochrome C, an alias name of cytochrome c, somatic. The…
Read MoreCurrent Practices for Reference Gene Selection in RT-qPCR of Aspergillus: Outlook and Recommendations for the Future
Aspergillus is a genus of filamentous fungi with huge geographic and ecological distributions. Species inside this genus are clinically, agriculturally and biotechnologically related, resulting in growing curiosity in elucidating gene expression dynamics of key metabolic and physiological processes. Reverse-transcription quantitative Polymerase Chain Response (RT-qPCR) is a delicate and particular methodology of quantifying gene expression. A vital…
Read MoreMonitoring and Surveillance of Aerial Mycobiota of Rice Paddy through DNA Metabarcoding and qPCR
The airborne mycobiota has been understudied compared with the mycobiota current in different agricultural environments. Conventional, culture-based strategies enable the research of a small fraction of the organisms current within the ambiance, thus lacking vital data. On this research, the aerial mycobiota in a rice paddy has been examined throughout the cropping season (from June…
Read More