Kyosuke Nomoto

Physiological aspect of mugineic acid, a possible phytosiderophore of graminaceous plants

Abstract A natural chelator designated mugineic acid (MA) was isolated from the root washings of barley cultivar “Minorimugi”;. The secretion of MA by barley roots occurred in the morning, and was much enhanced under Fe stress. MA enhanced the solubility of Fe(III) between pH 4 and 9. When added to nutrient solutions, MA strongly stimulated the uptake of Fe by “Fe‐inefficient”; rice seedlings. Commonly used chelating agents such as EDTA, EDDHA, citrate, etc. had no stimulative effects. The MA‐mediated Fe uptake proved to be dependent on metabolic energy. These results suggest the possibility of MA functioning as a phytosiderophore for graminaceous plants.

Internal Detoxification Mechanism of Al in Hydrangea (Identification of Al Form in the Leaves).

An internal detoxification mechanism for Al was investigated in an Al-accumulating plant, hydrangea (Hydrangea macrophylla), focusing on Al forms present in the cells. The leaves of hydrangea contained as much as 15.7 mmol Al kg-1 fresh weight, and more than two-thirds of the Al was found in the cell sap. Using 27Al- nuclear magnetic resonance, the dominant peak of Al was observed at a chemical shift of 11 to 12 parts per million in both intact leaves and the extracted cell sap, which is in good accordance with the chemical shift for the 1:1 Al-citrate complex. Purification of cell sap by molecular sieve chromatography (Sephadex G-10) combined with ion-exclusion chromatography indicated that Al in fractions with the same retention time as citric acid contributed to the observed 27Al peak in the intact leaves. The molar ratio of Al to citric acid in the crude and purified cell sap approximated 1. The structure of the ligand chelated with Al was identified to be citric acid. Bioassay experiments showed that the purified Al complex from the cell sap did not inhibit root elongation of corn (Zea mays L.) and the viability of cells on the root tip surface was also not affected. These observations indicate that Al is bound to citric acid in the cells of hydrangea leaves.

Achatin-I, an endogenous neuroexcitatory tetrapeptide from Achatina fulica Férussac containing a D-amino acid residue.

A tetrapeptide named achatin-I was purified from the suboesophageal and cerebral ganglia of the African giant snail Achatina fulica Férussac, and evoked a potent neuroexcitatory effect. The amino acid sequence of achatin-I is Gly-D-Phe-Ala-Asp. Achatin-I induced a voltage-dependent inward current, due to Na+, on the identifiable giant neuron, periodically oscillating neuron (PON), of the same snail. All possible isomers of achatin-I were synthesized using the solid-phase method. The sensitivity of the neuron to achatin-I and its isomers was strictly stereospecific; among the various isomers, only achatin-I showed marked effects (ED50 = 2.29 x 10(-6)M), while Gly-D-Phe-D-Ala-Asp, the synthetic D-Ala-isomer, was less than 10(-3) active.

Annetocin, an annelid oxytocin‐related peptide, induces egg‐laying behavior in the earthworm, Eisenia foetida

Annetocin, an oxytocin-related peptide which we isolated from the earthworm Eisenia foetida, induced a series of egg-laying-related behaviors in the earthworms. These stereotyped behaviors consisted of well-defined rotatory movements, characteristic body-shape changes, and mucous secretion from the clitellum. Each of these behaviors is known to be associated with formation of the cocoon in which eggs are deposited. In fact, some of the earthworms injected with annetocin (> 5 nmol) laid eggs. Such egg-laying-related behaviors except for oviposition were also induced by oxytocin, but not by Arg-vasopressin and some other bioactive peptides isolated from E. foetida. Furthermore, annetocin also induced these egg-laying-like behaviors in the leech Whitmania pigra, but not in the polychaete Perinereis vancaurica. These results suggest that annetocin plays some key role in triggering stereotyped egg-laying behaviors in terrestrial or fresh-water annelids that have the clitella.

Fulicin, a novel neuropeptide containing a D-amino acid residue isolated from the ganglia of Achatina fulica

A novel pentapeptide containing a D-amino acid residue was purified from the central ganglia of the African giant snail Achatina fulica Ferussac, and it was named fulicin. The primary structure of the peptide was determined to be Phe-D-Asn-Glu-Phe-Val-NH2. Fulicin potentiated tetanic contraction of the penis retractor muscle of this snail at very low concentrations, and also showed modulatory actions on the activity of the buccal and ventricular muscles and the central ganglionic neurons.

Structure of genipocyanin G1, a spontaneous reaction product between genipin and glycine

A spontaneous reaction of genipin and glycine gave a blue dimeric 1:1 adduct, whose structure was determined as 1 based on instrumental analyses, in particular, nOe experiments in 1H-NMR spectroscopy.

Insight into Tachykinin-Related Peptides, Their Receptors, and Invertebrate Tachykinins: A review

Abstract Tachykinins (TKs) constitute the largest vertebrate neuropeptide family with multifunctions in central and peripheral tissues. In several invertebrate species, two types of structurally related peptides, ‘tachykinin-related peptides (TKRPs)’ and ‘invertebrate tachykinins (inv-TKs)’ have been identified. TKRPs, isolated from the nerve and/or gut tissues, contain the common C-terminal sequence –Phe-X-Gly-Y-ArgNH2 (X and Y are variable) analogous to the vertebrate TK consensus –Phe-X-Gly-Leu-Met-NH2, and exhibit vertebrate TK-like contractile activity on invertebrate gut tissues. Inv-TKs have been shown to be present exclusively in the salivary gland of several species, to share vertebrate TK consensus motif, and to possess TK-like potencies on vertebrate, not invertebrate tissues. However, the functional and evolutionary relevance of TKRPs and inv-TKs to vertebrate TKs remains to be understood. Recent studies have revealed that TKRP precursors dramatically differ from vertebrate preprotachykinins in structural organization and that TKRP receptors share structural and functional properties with vertebrate TK receptors. Moreover, the C-terminal arginine in TKRPs has been shown to play an essential role in discriminating their receptors from vertebrate TK receptors. Such recent marked progress is expected to enhance further investigation of biological roles of TKRPs. This review provides an overview of the basic findings obtained previously and a buildup of new knowledge regarding TKRPs and inv-TKs. We also compare TKRPs and inv-TKs to vertebrate TKs with regard to evolutionary relationships in structure and function among these structurally related peptides.

Studies on phytosiderophores: Biosynthesis of mugineic acid and 2′-deoxymugineic acid in Hordeum vulgare L. var. Minorimugi

Abstract The feeding study using L-[1- 13 C]methionine revealed that labelled carbons were incorporated into C-1, 4′, and 4″ of purified mugineic acid and 2′-deoxymugineic acid from their 13 C-NMR spectra.

Specific recognition of mugineic acid-ferric complex by barley roots

Abstract The uptake rate by iron-deficient barley roots ( Hordeum vulgare , cv Minorimugi) from mugineic acid complexed with Fe(III) was much higher than corr

Possible functions of oxytocin/vasopressin-superfamily peptides in annelids with special reference to reproduction and osmoregulation

Annetocin is an earthworm oxytocin-related peptide that we previously isolated from the whole body of a lumbricid earthworm Eisenia foetida. We have reported that annetocin induces egg-laying-like behaviors in E. foetida and a gnathobdellid leech, Whitmania pigra, when it is injected into the respective animals. The present study was undertaken to probe physiological functions of invertebrate oxytocin-vasopressin-superfamily peptides with special reference to reproductive and osmoregulatory events in which vertebrate peptides of this superfamily are involved. Annetocin, Lys-conopressin (a leech vasopressin-related peptide) and two analog peptides, [Tyr(3)]-annetocin ((3)Y-annetocin) and [Phe(3)]-annetocin ((3)F-annetocin), were compared for their activities to induce egg-laying-like behavior and to change body weight as a measure of water balance in the leech W. pigra. Injection of annetocin, Lys-conopressin, and (3)F-annetocin caused both egg-laying-like behavior and reduction of body weight in the animals, but (3)Y-annetocin induced neither. Furthermore, leeches in the non-breeding season responded to peptides less conspicuously than those in the breeding season. Such a concomitant induction of egg-laying-like behavior and body-weight reduction suggests that these two phenomena are unitary and might be accounted for by the fact that egg-laying in leeches and earthworms is accompanied by secretion of a large quantity of mucus, which should significantly contribute to body-weight loss. J. Exp. Zool. 284:401-406, 1999.