Tyrosine mechanisms

Abstract All plants produce compounds that are phytotoxic to another plant species at some concentration. In some cases, these compounds function, at least in part, in plant/plant interactions, where a phytotoxin donor plant adversely affects a target plant, resulting in an advantage for the donor plant. This review discusses how such an allelochemical role of a phytotoxin can be proven and provides examples of some of the more studied phytochemicals that have been implicated in allelopathy. These include artemisinin, cineoles, P-triketones, catechin, sorgoleone, juglone and related quinones, rice allelochemicals, benzoxazinoids, common phenolic acids, l-DOPA, and m-tyrosine. Mechanisms of avoiding autotoxicity in the donor species are also discussed. 

Qf-receptor blocking agent, 1, 176 Phenylalanine hydroxylase in tyrosine synthesis from phenylalanine, 1, 261 L-Phenylalanine hydroxylase mechanism, 1, 261 Phenyl azide formation... 

Figure 1 Schematic diagram depicting the partitioning of an enzymatic system into quantum and classical regions. The side chains of a tyrosine and valine are treated quantum mechanically, whereas the remainder of the enzyme and added solvent are treated with a classical force field.

As noted previously in Section 11.10, biological dehydrations are also common and usually occur by an ElcB mechanism on a substrate in which the -OH group is two carbons away from a carbonyl group. An example occurs in the biosynthesis of the aromatic amino acid tyrosine. A base first abstracts a proton from the carbon adjacent to the carbonyl group, and the anion intermediate... 

Using curved arrows, propose a mechanism for the following reaction, one of the steps in the biosynthesis of the amino acid tyrosine. 

Concanavalin A is a plant lectin from the jack bean (Canavalia ensiformis) which binds with high affinity to mannose residues of glycoproteins. Concanavalin A is known to stimulate the tyrosine kinase activity of the INSR (3-subunit with consecutive activation of kinases downstream the insulin receptor (IRS, PI 3-kinase). It is believed that Concanavalin A stimulates the activation and autophosphorylation of the INSR kinase through aggregation of the receptor, although the precise mechanism of action is unclear. 

Phosphorylation is the reversible process of introducing a phosphate group onto a protein. Phosphorylation occurs on the hydroxyamino acids serine and threonine or on tyrosine residues targeted by Ser/Thr kinases and tyrosine kinases respectively. Dephosphorylation is catalyzed by phosphatases. Phosphorylation is a key mechanism for rapid posttranslational modulation of protein function. It is widely exploited in cellular processes to control various aspects of cell signaling, cell proliferation, cell differentiation, cell survival, cell metabolism, cell motility, and gene transcription. 

Transduction mechanism Inhibition of adenylyl cyclase stimulation of tyrosine phosphatase activity stimulation of MAP kinase activity activation of ERK inhibition of Ca2+ channel activation stimulation of Na+/H+ exchanger stimulation of AM PA/kainate glutamate channels Inhibition of forskol in-stimulated adenylyl cyclase activation of phos-phoinositide metabolism stimulation of tyrosine phosphatase activity inhibition of Ca2+ channel activation activation of K+ channel inhibition of AM PA/ kainate glutamate channels inhibition of MAP kinase activity inhibition of ERK stimulation of SHP-1 and SHP-2 Inhibition of adenylyl cyclase stimulation of phosphoinositide metabolism stimulation of tyrosine phosphatase activation of K+ channel inhibi-tion/stimulation of MAP kinase activity induction of p53 and Bax Inhibition of adenylyl cyclase stimulation of MAP kinase stimulation of p38 activation of tyrosine phosphatase stimulation of K+ channels and phospholipase A2 Inhibition of adenylyl cyclase activation/ inhibition of phosphoinositide metabolism inhibition of Ca2+ influx activation of K+ channels inhibition of MAP kinase stimulation of tyrosine phosphatase... 

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