Positive selection for single amino acid change promotes substrate discrimination of a plant volatile-producing enzyme.
(9/27)
We used a combined evolutionary and experimental approach to better understand enzyme functional divergence within the SABATH gene family of methyltransferases (MTs). These enzymes catalyze the formation of a variety of secondary metabolites in plants, many of which are volatiles that contribute to floral scent and plant defense such as methyl salicylate and methyl jasmonate. A phylogenetic analysis of functionally characterized members of this family showed that salicylic acid methyltransferase (SAMT) forms a monophyletic lineage of sequences found in several flowering plants. Most members of this lineage preferentially methylate salicylic acid (SA) as compared with the structurally similar substrate benzoic acid (BA). To investigate if positive selection promoted functional divergence of this lineage of enzymes, we performed a branch-sites test. This test showed statistically significant support (P<0.05) for positive selection in this lineage of MTs (dN/dS=10.8). A high posterior probability (pp=0.99) identified an active site methionine as the only site under positive selection in this lineage. To investigate the potential catalytic effect of this positively selected codon, site-directed mutagenesis was used to replace Met with the alternative amino acid (His) in a Datura wrightii floral-expressed SAMT sequence. Heterologous expression of wild-type and mutant D. wrightii SAMT in Escherichia coli showed that both enzymes could convert SA to methyl salicylate and BA to methyl benzoate. However, competitive feeding with equimolar amounts of SA and BA showed that the presence of Met in the active site of wild-type SAMT resulted in a >10-fold higher amount of methyl salicylate produced relative to methyl benzoate. The Met156His-mutant exhibited little differential preference for the 2 substrates because nearly equal amounts of methyl salicylate and methyl benzoate were produced. Evolution of the ability to discriminate between the 2 substrates by SAMT may be advantageous for efficient production of methyl salicylate, which is important for pollinator attraction as well as pathogen and herbivore defense. Because BA is a likely precursor for the biosynthesis of SA, SAMT might increase methyl salicylate levels directly by preferential methylation and indirectly by leaving more BA to be converted into SA. (+info)
Impacts of T-Phylloplanin gene knockdown and of Helianthus and Datura phylloplanins on Peronospora tabacina spore germination and disease potential.
(10/27)
T-phylloplanin proteins secreted to aerial surfaces of tobacco (Nicotiana tabacum) by short procumbent trichomes inhibit spore germination and blue mold disease caused by the oomycete pathogen Peronospora tabacina. Many other plants were found to contain water-washed leaf surface proteins (phylloplanins), but the functions and properties of these are not known. Here we extend earlier evidence for the antifungal activity of T-phylloplanins using a reverse genetics approach. RNA interference of the T-phylloplanin gene in tobacco 'T.I. 1068' resulted in loss of T-phylloplanin mRNA and protein, loss of in vitro spore germination inhibition activity, and leaf infection inhibition activity of leaf water washes from RNA interference plants, and young knockdown plants were susceptible to disease. The glycoprotein character, adaxial-leaf-surface enrichment of, and renewability of T-phylloplanins are also described. We also report that leaf water washes of sunflower (Helianthus annuus) and jimson weed (Datura metel), but not soybean (Glycine max), like that of tobacco, possess ProteinaseK- and boiling-sensitive P. tabacina spore germination and tobacco leaf infection inhibition activities. Results establish that T-phylloplaninins of tobacco are active in P. tabacina inhibition, and indicate that leaf surface proteins of certain non-Nicotiana species that are not susceptible to P. tabacina disease can inhibit germination of spores of this oomycete pathogen and inhibit tobacco leaf infection by this pathogen. (+info)
The very-low-fluence and high-irradiance responses of the phytochromes have antagonistic effects on germination, mannan-degrading activities, and DfGA3ox transcript levels in Datura ferox seeds.
(11/27)
Seed germination can be promoted by the modes of action of two of the phytochromes: the low-fluence response (LFR), which is the classical red (R)-far-red (FR) reversible response and the very-low-fluence response (VLFR) that can be saturated by extremely low levels of Pfr, which can be elicited by a saturating FR pulse. The Datura ferox seed population used in this work had acquired the capacity to germinate through a VLFR after pretreatment in a water-saturated atmosphere (WSA) at constant 25 degrees C. After 12 d in WSA germination after a FR pulse was 82%, while it was less than 10% in darkness. It was found that the VLFR of germination is associated with increments in the embryo growth potential (EGP) and in the activity of two enzymes related to the weakening of the micropylar region of the endosperm (ME); endo-beta-mannanase and beta-mannosidase. The FR pulse also significantly stimulated the expression of DfGA3ox, a GA 3beta-hydroxylase, suggesting that the promotion of germination by the VLFR is associated with an increase in the synthesis of active gibberellins. The promotive action of the VLFR on germination is reduced when the FR pulse is immediately followed by a continuous FR treatment for 24 h (FRc). The effect of FRc cannot be reproduced by hourly FR pulses during the same period, showing that the antagonistic effect of FRc is a high-irradiance response (HIR). The action of the HIR in germination is associated with a decrease of both the mannan-degrading enzyme activity and the expression of DfMan in the ME, whereas no changes in the EGP were observed. The HIR also inhibits the accumulation of DfGA3ox in embryos, indicating that its action on germination is mediated, at least in part, through the modulation of active GA contents in seeds. This is the first report of a gene that participates in the VLFR-HIR antagonism in seeds. (+info)
Historical evidence for a pre-Columbian presence of Datura in the Old World and implications for a first millennium transfer from the New World.
(12/27)
Datura (Solanaceae)is a small genus of plants that,for long, was thought to occur naturally in both the New and Old Worlds. However, recent studies indicate that all species in the genus originated in the Americas. This finding has prompted the conclusion that no species of Datura could have been present in the Old World prior to its introduction there by Europeans in the early 16th century CE. Further, the textual evidence traditionally cited in support of a pre-Columbian Old World presence of Datura species is suggested to be due to the misreading of classical Greek and Arabic sources. As a result, botanists generally accept the opinion that Datura species were transferred into the Old World in the post-Columbian period. While the taxonomic and geographic evidence for a New World origin for all the Datura species appears to be well supported, the assertion that Datura species were not known in the Old World prior to the 16th century is based on a limited examination of the pre-Columbian non-Anglo sources. We draw on old Arabic and Indic texts and southern Indian iconographic representations to show that there is conclusive evidence for the pre-Columbian presence of at least one species of Datura in the Old World. Given the systematic evidence for a New World origin of the genus, the most plausible explanation for this presence is a relatively recent but pre-Columbian (probably first millennium CE) transfer of at least one Datura species, D. metel, into the Old World. Because D. metel is a domesticated species with a disjunct distribution,this might represent an instance of human-mediated transport from the New World to the Old World, as in the case of the sweet potato (Ipomoea batatas). (+info)
Context- and scale-dependent effects of floral CO2 on nectar foraging by Manduca sexta.
(13/27)
Two instances of Chinese herbal medicine poisoning in Singapore.
(14/27)
Datura metel L. (Yangjinghua) is a toxic herb that contains anticholinergic compounds. Inappropriate consumption of this herb could result in anticholinergic poisoning. Clinical features of such poisoning have not been previously described. We report two such cases. Both patients had taken brews of Datura metel L., and developed poisoning soon afterwards. Prominent clinical features included confusion, dilated pupils, absence of sweating, and the absence of sluggish bowel sounds. No flushing of the face or skin was detected in either case. Both patients recovered fully within 12 hours with supportive measures, and no gastric elimination or antidote was used. The different names ascribed to Datura metel L. in chinese medicine can be confusing; this confusion resulted in the poisoning of one of our patients. The clinical features of Datura metel L. poisoning and concerns over inappropriate uses of herbal medicine are discussed. (+info)
Characterization and coding of behaviorally significant odor mixtures.
(15/27)