Bacterial recombinant proteins
Bacteria, particularly E. coli, are the most common expression systems for recombinant proteins. They offer rapid growth, easy manipulation, and high yields. However, E. coli lacks the machinery for post-translational modifications found in eukaryotic cells.
Applications
- Ideal for producing large quantities of proteins for research purposes.
- Suitable for proteins that do not require glycosylation or complex folding.
- Common in industrial enzyme production, such as proteases and polymerases.
Recent studies have highlighted the potential of using E. coli as an expression system for producing therapeutic proteins. Researchers have developed strategies to overcome the limitations of E. coli, such as codon optimization, chaperone co-expression, and periplasmic secretion, allowing for the production of complex proteins with improved solubility and activity. One notable example is the use of E. coli in the production of insulin. By expressing the human insulin gene in E. coli, researchers have been able to produce large quantities of this vital hormone, making it more accessible and affordable for patients with diabetes.
Moreover, E. coli has been employed in the production of vaccines. By expressing antigenic proteins from pathogens, E. coli can be used as a platform for developing recombinant vaccines, which are safer and more stable than traditional vaccines. In the field of industrial enzymes, E. coli continues to be a preferred expression system. For instance, the production of Taq polymerase, a crucial enzyme used in PCR (Polymerase Chain Reaction), relies heavily on E. coli expression systems. This has made Taq polymerase more widely available and cost-effective for researchers and diagnostic laboratories.
Risultati della ricerca : 399824 prodotto(i) trovato(i)
Limita la ricerca :
- Unconjugated 304989
- Biotin 20
- HRP 2
- PE 2
- human 121238
- mouse 59469
- rat 34842
- e. coli 31364
- bacteria 14842
- plant 10363
- cow 8162
- yeast 5585
- virus 4257
- pig 3522
- dog 1167
- chicken 864
- rabbit 730
- drosophila 489
- monkey 475
- horse 431
- xenopus 382
- sheep 254
- swine 188
- guinea pig 164
- all species 112
- goat 100
- zebrafish 69
- cat 68
- bird 55
- gorilla 22
- fish 15
- hamster 14
- goose 8
- pigeon 8
- bovine 7
- frog 6
- rhesus 6
- c. elegans 4
- canine 3
- duck 3
- equine 3
- insect 3
- porcine 3
- escherichia coli 2
- influenza a 2
- e. coli 388232
- bacteria 11593
- virus 111
- pig 20
- human 7
- swine 5
- mouse 4
- c. elegans 1
- cow 1
- goat 1
- Protein/peptide 399824
- WB 47762
- ELISA 24078
- IP 23571
- Mass spectrometry 2096
- Purification 84
- Lateral Flow 35
- Assay 24
- Immunoassay 14
- FC 12
- SDS-PAGE 9
- Chemiluminescence 8
- E 3
- MS 3
- Cellular activation 2
- EMSA 1
- IHC 1
- Human 12776
- Mouse 2935
- Escherichia coli 1100
- Rat 937
- Bovine 416
- Pig 168
- Dog 167
- Chicken 131
- Mycobacterium tuberculosis 131
- Streptococcus 127
- 111
- Influenza A 101
- Drosophila 84
- Rabbit 74
- Avian 62
- Horse 48
- Rhesus 45
- Sheep 45
- Cat 39
- Porcine 38
- Canine 27
- Xenopus laevis 27
- Influenza 24
- Xenopus tropicalis 15
- Enterovirus 12
- Feline 9
- SARS-CoV-2 9
- human 9
- Gorilla 8
- Guinea pig 8
- Canis 3
- Frog 3
- Goat 3
- Guinea Pig 3
- Hamster 3
- chicken 3
- mouse 3
- 100ug 2
- 50ug 2
- Mus musculus 2