- FILTERS Advanced
- Product Type
- Clonality
- Application
- Species / Reactivity
- Source / Host
- Conjugation
- CE / IVD
- Clone ID
- EXCLUDE FILTERS
- Product Type
- Clonality
- Application
- Species / Reactivity
- Source / Host
- Conjugation
- Clone ID
Name | Art no | Species Reactivity | Application | Conjugation | Size | Price |
---|---|---|---|---|---|---|
AG-40B-0195-C050
|
human
|
|
|
50 ug
|
||
CHI-B249001-C100
|
|
|
|
100 ug
|
||
AG-40B-0195-3050
|
human
|
|
|
3 x 50 ug
|
||
AG-40B-0195B-C050
|
human
|
|
Biotin
|
50 ug
|
||
AG-40B-0206-C050
|
human
|
|
|
50 ug
|
||
AG-40B-0207-C050
|
human
|
|
|
50 ug
|
||
AG-40B-0205-C050
|
human
|
|
|
50 ug
|
||
AG-40B-0194-C050
|
human
|
|
|
50 ug
|
||
AG-40B-0208-C050
|
human
|
|
|
50 ug
|
||
AG-40B-0194-C500
|
human
|
|
|
500 ug
|
||
AG-40B-0207-3050
|
human
|
|
|
3 x 50 ug
|
||
AG-40B-0206-3050
|
human
|
|
|
3 x 50 ug
|
||
AG-40B-0205-3050
|
human
|
|
|
3 x 50 ug
|
||
AG-40B-0208-3050
|
human
|
|
|
3 x 50 ug
|
||
AG-40B-0194-3050
|
human
|
|
|
3 x 50 ug
|
||
AG-27B-6309-C050
|
virus
|
ELISA
|
Unconjugated
|
50 ug
|
||
AG-27B-6311-C050
|
virus
|
ELISA, ICC, WB
|
Unconjugated
|
50 ug
|
||
AG-40B-0204-C050
|
human
|
|
|
50 ug
|
||
AG-40B-0203-C050
|
human
|
|
|
50 ug
|
||
AG-40B-0211-C050
|
human
|
|
|
50 ug
|
||
AG-40B-0220-C050
|
human
|
|
|
50 ug
|
||
AG-40B-0204-3050
|
human
|
|
|
3 x 50 ug
|
||
AG-40B-0209-C050
|
human
|
|
|
50 ug
|
||
AG-40B-0202-C050
|
human
|
|
|
50 ug
|
||
AG-27B-6310-C050
|
virus
|
ELISA, ICC, WB
|
Unconjugated
|
50 ug
|
||
AG-40B-0211-3050
|
human
|
|
|
3 x 50 ug
|
||
AG-40B-0203-3050
|
human
|
|
|
3 x 50 ug
|
||
AG-40B-0209-3050
|
human
|
|
|
3 x 50 ug
|
||
AG-40B-0202-3050
|
human
|
|
|
3 x 50 ug
|
||
AG-40B-0220-3050
|
human
|
|
|
3 x 50 ug
|
||
AG-40B-0212-C050
|
human
|
|
|
50 ug
|
||
AG-40B-0212-3050
|
human
|
|
|
3 x 50 ug
|
Finally! Link RNA and Protein Expression Levels with TotalSeq™ from BioLegend
In recent years, the field of multiomics has undergone an increasing expansion of interest from the scientific community. Several techniques have been developed to gain an increase in resolution when studying cellular characteristics. Using multiomics technology, scientists can now rebuild cell lineage trajectories to further understand animal development, to unravel how cancer cells develop during carcinogenesis by linking mutations with cellular behavior, and to identify cell subtypes within a population of cells (Reviewed in 1).