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. 2022 Oct;194(10):4673-4682.
doi: 10.1007/s12010-022-04047-8. Epub 2022 Jul 8.

Evidence from Co-expression Analysis for the Involvement of Amidase and INS in the Tryptophan-Independent Pathway of IAA Synthesis in Arabidopsis

Yousef M Abu-Zaitoon  1 Ahmed Abu-Zaiton  2 Abdel Rahman Al Tawaha  2 Khalid Ghazi Fandi  3 Sulaiman M Alnaimat  3 Siddhartha Pati  4 Fouad A Almomani  5
Affiliations

Evidence from Co-expression Analysis for the Involvement of Amidase and INS in the Tryptophan-Independent Pathway of IAA Synthesis in Arabidopsis

Yousef M Abu-Zaitoon et al. Appl Biochem Biotechnol. 2022 Oct.

Abstract

The reverse genetic approach has uncovered indole synthase (INS) as the first enzyme in the tryptophan (trp)-independent pathway of IAA synthesis. The importance of INS was reevaluated suggesting it may interact with tryptophan synthase B (TSB) and therefore involved in the trp-dependent pathway. Thus, the main aim of this study was to clarify the route of INS through the analysis of Arabidopsis genome. Analysis of the top 2000 co-expression gene lists in general and specific conditions shows that TSA is strongly positively co-expressed with TSB in general, hormone, and abiotic conditions with mutual ranks of 89, 38, and 180 respectively. Moreover, TSA is positively correlated with TSB (0.291). However, INS was not found in any of these coexpressed gene lists and negatively correlated with TSB (- 0.046) suggesting unambiguously that these two routes are separately and independently operated. So far, the remaining steps in the INS pathway have remained elusive. Among all enzymes reported to have a role in IAA synthesis, amidase was found to strongly positively co-expressed with INS in general and light conditions with mutual ranks of 116 and 141 respectively. Additionally, amidase1 was found to positively correlate with INS (0.297) and negatively coexpressed with TSB concluding that amidase may exclusively involve in the trp-independent pathway.

Keywords: Amidase; Co-expression; Indole synthase; Tryptophan synthase A; Tryptophan synthase B.

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