- Category
-
- Chloroplast 685
- Mitochondria 296
- Cytoplasm 528
- Plasma Membrane 361
- Golgi 122
- Endoplasmic Reticulum 110
- Plastidial 171
- Peroxisomal 47
- Nucleus 1017
- Vacuole 134
- Cell Wall 12
- Extracellular 101
Arabidopsis Antibodies
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Starting at $89.00
Immunogen: AT3G10920 O81235 
Synonyms: MSD1, MnSOD, ARABIDOPSIS MANGANESE SUPEROXIDE DISMUTASE 1, ATMSD1, ATSOD1, MANGANESE SUPEROXIDE DISMUTASE 1, MATERNAL EFFECT EMBRYO ARREST 33, MEE33, SUPEROXIDE DISMUTASE 1 Background:
MSD1 is a mitochondrial Mn-superoxide dismutase which activity seems critical for maintaining ROS localization and important for embryo sac patterning. -
Starting at $89.00
Immunogen: ATCG00740 P56762 Synonyms: RpoA, RNA POLYMERASE SUBUNIT ALPHA Background:
In chloroplasts, transcription of plastid genes is mediated by two types of RNA polymerase: plastid-encoded RNA polymerase (PEP) and nuclear encoded RNA polymerase (NEP). PEP is composed of four coresubunits (α, β,β’,β’’) and a promoter recognition subunit (σfactor). RpoA (ATCG00740) is the α subunit of PEP. -
Starting at $89.00
Immunogen: ATCG00190 P50546 Synonyms: RpoB, RNA POLYMERASE SUBUNIT BETA Background:
In chloroplasts, transcription of plastid genes is mediated by two types of RNA polymerase: plastid-encoded RNA polymerase (PEP) and nuclear encoded RNA polymerase (NEP). PEP is composed of four core subunits (α, β,β’,β’’) and a promoter recognition subunit (σfactor). RpoB (ATCG00190) is the β subunit of PEP. -
Starting at $89.00
Immunogen: AT5G07020 Q9FL44 Synonyms: MPH1, MAINTENANCE OF PSII UNDER HIGH LIGHT 1 Background:
MPH1 is an integral thylakoid membrane protein that interacts with PSII core complexes and contributes to the maintenance of PSII homeostasis upon exposure to photoinhibitory light conditions by participating in the protection and stabilization of PSII under photoinhibitory stress. -
Starting at $89.00
Immunogen: ATCG00600 P56775 Synonyms: PetG Background:
PetG is cytochrome b6-f complex subunit V which is the component of the cytochrome b6-f complex, which mediates electron transfer between photosystem II (PSII) and photosystem I (PSI), cyclic electron flow around PSI, and state transitions. It is required for either the stability or assembly of the cytochrome b6-f complex. -
Starting at $89.00
Immunogen: AT4G14550 Q38832 
Synonyms: IAA14, INDOLE-3-ACETIC ACID INDUCIBLE 14, SLR, SOLITARY ROOT, Auxin-responsive protein IAA14 Background:
IAA14 is a member of the Aux/IAA protein family. It is involved in lateral root development. This protein is localized to the nucleus. It is expressed in stele and root tip epidermis. It functions as a negative regulator of ARF7/19. -
Starting at $89.00
Immunogen: AT2G17950 Q9SB92 Synonyms: WUS, PGA6, WUS1, WUSCHEL, WUSCHEL 1 Background:
WUS is expressed in the stem cell organizing center of meristems. It is required to keep the stem cells in an undifferentiated state. Regulation of WUS transcription is a central checkpoint in stem cell control. Repression of WUS transcription through AGAMOUS (AG) activity controls stem cell activity in the determinate floral meristem. It binds to TAAT element core motif. WUS is also involved in cell differentiation during anther development. -
Starting at $89.00
Immunogen: AT4G31800 Q9C5T4 Synonyms: WRKY18, ARABIDOPSIS THALIANA WRKY DNA-BINDING PROTEIN 18, ATWRKY18, WRKY DNA-BINDING PROTEIN 18 Background:
WRKY18 is a pathogen-induced transcription factor. It binds W box sequences in vitro. It forms protein complexes with WRKY40 and WRKY60. WRKY18 (AT4G31800), WRKY40 (AT1G80840), and WRKY60 (AT2G25000) have partially redundant roles in response to the hemibiotrophic bacterial pathogen Pseudomonas syringae and the necrotrophic fungal pathogen Botrytis cinerea , with WRKY18 playing a more important role than the other two. -
Starting at $89.00
Immunogen: AT1G14120 Q9XI76 Synonyms: DAO2, ATDAO2, AUXIN OXIDASE Background:
ATDAO2 is an IAA oxidase expressed in root caps. It is a member of a family of dioxygenase and 2OG Fe(II) oxygenase domain and DAO domain containing proteins. ATDAO1 is the primary constitutive mechanism of auxin catabolism in Arabidopsis and that the temporal- and tissue-specific oxidative inactivation of auxin by DAO adjusts indole-3-acetic acid levels throughout the life of the plant to optimize growth and development.
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