Abstract
Auxin is a main plant growth hormone crucial in a multitude of developmental processes in plants. Auxin biosynthesis via the tryptophan aminotransferase of arabidopsis (TAA)/YUCCA (YUC) route involving tryptophan aminotransferases and YUC flavin-dependent monooxygenases that produce the auxin indole-3-acetic acid (IAA) from tryptophan is currently the most researched auxin biosynthetic pathway. Previous data showed that, in maize and arabidopsis, TAA/YUC-dependent auxin biosynthesis can be detected in endoplasmic reticulum (ER) microsomal fractions, and a subset of auxin biosynthetic proteins are localized to the ER, mainly due to transmembrane domains (TMD). The phylogeny presented here for TAA/TAR (tryptophan aminotransferase related) and YUC proteins analyses phylogenetic groups as well as transmembrane domains for ER-membrane localisation. In addition, RNAseq datasets are analysed for transcript abundance of YUC and TAA/TAR proteins in Arabidopsis thaliana. We show that ER membrane localisation for TAA/YUC proteins involved in auxin biosynthesis is already present early on in the evolution of mosses and club mosses. ER membrane anchored YUC proteins can mainly be found in roots, while cytosolic proteins are more abundant in the shoot. The distribution between the different phylogenetic classes in root and shoot may well originate from gene duplications, and the phylogenetic groups detected also overlap with the biological function.
Highlights
Auxin is the major plant growth hormone and is involved in most developmental processes in plants
The currently most-researched pathway of auxin biosynthesis is the tryptophan aminotransferase of arabidopsis (TAA)/YUCCA (YUC) route involving tryptophan aminotransferases and YUC flavin-dependent mono-oxygenases to produce the auxin indole-3-acetic acid (IAA) from tryptophan
We present here a phylogenetic analysis for TAA/tryptophan aminotransferase related (TAR) and YUC proteins that phylogenetic groups takes into account as well as transmembrane domains for endoplasmic reticulum (ER)-membrane localisation
Summary
Auxin is the major plant growth hormone and is involved in most developmental processes in plants. The currently most-researched pathway of auxin biosynthesis is the tryptophan aminotransferase of arabidopsis (TAA)/YUCCA (YUC) route involving tryptophan aminotransferases and YUC flavin-dependent mono-oxygenases to produce the auxin indole-3-acetic acid (IAA) from tryptophan. The two-step pathway from tryptophan (Trp) to IAA, catalysed by the TAA proteins and the YUC flavin-containing mono-oxygenases, is the first identified complete auxin biosynthetic pathway, which is essential for almost all of the major developmental events in plants [1]. In the TAA/YUC-route, TAA/TAR (tryptophan aminotransferase related) enzymes convert Trp to indole-3-pyruvic acid (IPyA). Inactivation of the first step in TAA/YUC-dependent auxin biosynthesis (TAA1 and its close homologues TAR1 and TAR2) leads to partial auxin deficiency and defects in several developmental processes [5]. The disruption of multiple YUC genes causes dramatic developmental defects mainly in roots; these root phenotypes can be rescued by adding auxin to growth media [6]
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