- Category
-
- Arabidopsis Antibodies 3284
- Grain Crops Antibodies 813
- Cash Crops Antibodies 1058
- Vegetable Crops Antibodies 525
- Energy And Herbaceous Crops Antibodies 528
- Other Species Antibodies 205
- Algae Antibodies 399
- Modified Antibody 1
- Plant Pathogens Antibodies 57
- Tag antibodies 13
- GMO Antibodies 7
- Other Antibodies 108
- Secondary Antibodies 3
- Proteins 2
- Others 19
Products
-
Starting at $89.00
-
Starting at $89.00
Immunogen: AT1G14410 Q9M9S3 
Synonyms: pTAC1, A. THALIANA WHIRLY 1, ATWHY1, PTAC1, WHIRLY 1, WHY1 Background:
The plant-specific single-strand DNA-binding protein WHIRLY1 (WHY1), a repressor of leaf natural senescence, is dually located in both nucleus and plastids. The WHY1 protein bound to the promoter of WRKY53 in a development-dependent manner during early senescence in Arabidopsis. -
Starting at $89.00
Immunogen: AT1G65260 O80796 Synonyms: VIPP1, IM30, PLASTID TRANSCRIPTIONALLY ACTIVE 4, PTAC4, VESICLE-INDUCING PROTEIN IN PLASTIDS 1 Background:
VIPP1 protein in photosynthetic organisms is homologous to bacterial PspA, which protects plasma membrane integrity upon stresses. VIPP1 may be involved in the formation of thylakoids and maintenanceof chloroplast envelopes. VIPP1 (AT1G65260) is also termed as pTAC4. -
Starting at $89.00
Immunogen: AT4G20010 Q8GXH3 Synonyms: pTAC9, ORGANELLAR SINGLE-STRANDED DNA BINDING PROTEIN 2, OSB2, PLASTID TRANSCRIPTIONALLY ACTIVE 9, PTAC9 Background:
In chloroplasts, transcription of plastid genes is mediated by two types of RNA polymerase: plastid-encoded RNA polymerase (PEP) and nuclearencoded RNA polymerase (NEP). Transcription in plastids is also mediated by a number of nuclear-encoded factors in addition to PEP and NEP. In the insoluble RNA polymerase preparation samples, a total of 18 components named as pTACs (pTAC1 to pTAC18) were identified. pTAC9 (AT4G20010) is one of the components associated with PEP complex. -
Starting at $89.00
Immunogen: AT3G10800 Q9SG86 Synonyms: BZIP28 Background:
BZIP28 is a putative membrane-tethered transcriptional factor. It has a similar domain structure to the mammalian ATF6 protein involved in the unfolded protein response (UPR), and shares a bZIP domain, transmembrane domain, and a canonical S1P cleavage site. This protein present in root cells appears to translocate from the cytoplasm and ER to the nucleus following TM treatment. -
![FSD3 / Anti-Superoxide dismutase [Fe] 3, chloroplastic Antibody](https://www.phytoab.com/pub/media/catalog/product/cache/72e8a7476fc2312bf277b46ba7f43d43/p/h/phy1619s.jpg)
Starting at $89.00
Immunogen: AT5G23310 Q9FMX0 Synonyms: FSD3, FE SUPEROXIDE DISMUTASE 3, SOD3, SUPEROXIDE DISMUTASE 3 Background:
Iron superoxide dismutases (FeSODs; FSDs) are primary antioxidant enzymes in Arabidopsis thaliana chloroplasts. The stromal FSD1 conferred the only detectable FeSOD activity, whereas the thylakoid membrane- and nucleoid-co-localized FSD2 and FSD3 double mutant showed arrested chloroplast development.
My Wish List
Last Added Items
You have no items in your wish list.
