#158027

Anti-miniIAA7 degron core sequence [AA7]

Cat. #158027

Anti-miniIAA7 degron core sequence [AA7]

Cat. #: 158027

Unit size: 100 ug

Availability: 10-12 weeks

Target: Auxin-responsive protein IAA7

Class: Monoclonal

Application: IF

£300.00

This fee is applicable only for non-profit organisations. If you are a for-profit organisation or a researcher working on commercially-sponsored academic research, you will need to contact our licensing team for a commercial use license.

Contributor

Inventor: Elina Ikonen

Institute: University of Helsinki

Tool Details
Target Details
Applications
Handling
References

Tool Details

*FOR RESEARCH USE ONLY

  • Name: Anti-miniIAA7 degron core sequence [AA7]
  • Alternate name: IAA7; AXR2
  • Class: Monoclonal
  • Conjugation: Unconjugated
  • Application: IF
  • Description: Aux/IAA proteins are short-lived transcriptional factors that function as repressors of early auxin response genes at low auxin concentrations. Repression is thought to result from the interaction with auxin response factors (ARFs), proteins that bind to the auxin-responsive promoter element (AuxRE). Formation of heterodimers with ARF proteins may alter their ability to modulate early auxin response genes expression.
  • Immunogen: Q38825 (IAA7_ARATH)
  • Immunogen uniprot id: Q38825 (IAA7_ARATH)

Target Details

  • Target: Auxin-responsive protein IAA7
  • Target background: Aux/IAA proteins are short-lived transcriptional factors that function as repressors of early auxin response genes at low auxin concentrations. Repression is thought to result from the interaction with auxin response factors (ARFs), proteins that bind to the auxin-responsive promoter element (AuxRE). Formation of heterodimers with ARF proteins may alter their ability to modulate early auxin response genes expression.

Applications

  • Application: IF

Handling

  • Format: Liquid
  • Unit size: 100 ug
  • Shipping conditions: Shipping at 4° C

References

  • An Efficient Auxin-Inducible Degron System With Low Basal Degradation in Human Cells
  • Li et al. 2019. Nat Methods. 16(9):866-869. PMID: 31451765.
  • O'Neill et al. 1994. J Neural Transm Gen Sect. 96(1):9-18. PMID: 7857593.