Changes in Amino Acid Composition during Germination of Soybean

As a fundamental approach to the problem of amino acid metabolism in soybean, changes in content of twenty-three free amino acids, two acidic peptides, ammonia, ethanolamine, urea and seventeen total amino acids of cotyledon, hypocotyl and root of soybean during germination were determined with an amino acid analyzer. Glycine Max M. var. T201 (non-nodule-forming) and Glycine Max M. var. T202 (nodule-forming) were used for this experiment. The content and composition of free and total amino acids of cotyledon in both T201 and T202 differ from those of other tissues in any stage of germination. However, no significant difference between these two varieties of soybean has been recognized in patterns of free and total amino acids changes during germination.

In dry bean and initial stage of germination a relatively large unknown peak appeared and disappeared thereafter when the change in free amino acid content during germination of soybean was analyzed with amino acid analyzer. From various tests on the unknown peak, it became obvious that the peak was consisted of two peptides, γ-glutamyl-tyrosine and γ-glutamylphenylalanine, which were discovered in soybean by Thompson et al. in 1962. The content of these peptides did not change during the first 20 hours of germination, but they decreased rapidly thereafter and disappeared after 70 hours.     

Anthocyanase and Anthocyanins Occurring in Eggplant,Solarium melongena L.

From the eggplant fruits, chlorogenic acid, neochlorogenic acid and caffeic acid have been isolated and identified. Enzymic experiments show that their O-dihydroxyphenolic compounds can be the browning substrates in the fruit flesh, on the other hand chlorogenic acid accelerates the decoloration of nasunin (delphinidin-glycoside) and enables to decolorize pelargonidin-3-glucoside by the anthocyanase.     

Anthocyanase and Anthocyanins Occurring in Eggplant,Solanum melongena L. (I)

Anthocyanins present in eggplant were decolorized by anthocyanase from flesh of eggplant. The anthocyanins consisted of at least three different anthocyanins containing delphinidin as common aglycone, and that a main component of those was nasunin, delphinidin-3-diglucoside acylated with p-coumaric acid.

Using the anthocyanin as substrate, the anthocyanase action was optimal at pH 6.0 and 35^°C, and was inhibited by potassium cyanide, thiourea, and sodium chloride. The data obtained so far show that anthocyanase acts on the following anthocyanidin derivatives in order of increasing rate of decolorization; pelargonidin-=peonidin-<cyanidin-<delphinidin-<delphinidin-glucoside acylated with p-coumaric acid.     

Growth inhibition of Helicobacter pylori by apolyamine synthesis inhibitor, methylglyoxal bis(cyclopentylamidinohydrazone)

The anti-proliferative effect of methylglyoxal bis(cyclopentyl-amidino-hydrazone) (MGBCP), a multi-enzyme inhibitor of polyamine biosynthesis, on the growth of Helicobacter pylori was investigated. MGBCP inhibited the cell growth of H. pylori in a dose-dependent manner. The inhibition was partially reversed by the addition of spermidine. Synthesis of macromolecules, DNA, RNA and protein, was inhibited in the spermidine-depleted H. pylori cells. These findings suggest that MGBCP exhibits an anti-proliferative effect on H. pylori by suppression of macromolecule synthesis.     

A new membrane antigen revealed by monoclonal antibodies is associated with motoneuron axonal pathways

Chick embryonic motoneurons selectively grow out from the spinal cord as the first step of their selective axonal growth. In order to detect the molecules responsible for motoneuron outgrowth from the cord, we produced and immunohistochemically screened many monoclonal antibodies (MAbs) against cord and somite. We found that two of them, called M7412 and M7902, selectively bound to the cell surface of the anterior half of the sclerotome, where motoneurons selectively extend their axons. Immunohistochemistry and immunoblot results were identical for these antibodies and the antigen was called M7412 antigen. Although neural crest cells also migrate into the anterior half of the sclerotome, the expression of M7412 antigen by sclerotome cells was independent of the neural crest, because neural crest removal did not affect the appearance of the antigen. Furthermore, MAb M7412 bound to the mesenchymal cells along presumptive major nerve trunks in the limb and to the structures surrounding myotubes in muscles during the formation of intramuscular nerve branches. These results suggest that M7412 antigen might be a substrate for general, but not specific, growth of motoneuron axons. If this is the case, we must also infer that some molecule inhibitory for motoneuron growth is localized in the posterior half of sclerotome, because at upper cervical levels the M7412 antigen was also expressed intensely in the posterior sclerotome, whereas motoneurons still grew only into the anterior half. The M7412 antigen was transiently expressed in such various tissues as somite; muscles; blood vessels; spinal cord cells, especially motoneurons innervating the limb; and dorsal root and other peripheral ganglion cells. The M7412 antigenic molecule was extractable with NP40 from a membrane fraction of whole chick embryos and its molecular weight was estimated to be 70 kDa from immunoblot analysis. Thus, our monoclonal antibodies have revealed a new membrane-associated molecule which is likely to play a role in cell-cell interactions during development of motoneurons.     

Molecular basis of a unique tumor antigen of radiation leukemia virus-induced leukemia B6RV2: its relation to MuLV gp70 of xenotropic class

Hybridomas secreting monoclonal antibodies that reacted with the B6 radiation leukemia virus (RadLV)-induced leukemia B6RV2 were produced by fusion of BALB/c NS-1 myeloma cells with spleen cells from (BALB/c X B6)F1 mice immunized with B6RV2. By direct and absorption analyses with 28 B6 and BALB/c leukemias, the monoclonal antibodies NU7-4 and NU7-99 were shown to react only with B6RV2, indicating that they recognized an individually distinct antigen on B6RV2 that was identified previously with conventional (BALB/c X B6)F1 anti-B6RV2 serum. Another monoclonal antibody, NU1-132, showed relatively restricted reactivity with B6 RadLV leukemias. These three monoclonal antibodies all precipitated material of approximately 80,000 daltons, which is the same size as that precipitated by anti-xenotropic MuLV gp70 serum. Sequential immunoprecipitation analysis revealed that the molecules precipitated by NU7-4 were not removed by pretreatment of NU7-99 or NU1-132 and that the molecules precipitated by NU7-99 were not removed by NU7-4 or NU1-132. The molecules precipitated by NU1-132 were partially removed by pretreatment with NU7-4, but not with NU7-99. The molecules precipitated by these three monoclonal antibodies were removed by pretreatment with anti-xenotropic gp70. These results suggested heterogeneity of the xenotropic MuLV gp70-related molecules expressed on B6RV2 and a possible relation between serologically defined unique tumor antigens and gp70-related molecules.     

The mitochondrial NAD+ transporter (NDT1) plays important roles in cellular NAD+ homeostasis in Arabidopsis thaliana

Nicotinamide adenine dinucleotide (NAD⁺) is an essential coenzyme required for all living organisms. In eukaryotic cells, the final step of NAD⁺ biosynthesis is exclusively cytosolic. Hence, NAD⁺ must be imported into organelles to support their metabolic functions. Three NAD⁺ transporters belonging to the mitochondrial carrier family (MCF) have been biochemically characterized in plants. AtNDT1 (At2g47490), focus of the current study, AtNDT2 (At1g25380), targeted to the inner mitochondrial membrane, and AtPXN (At2g39970), located in the peroxisomal membrane. Although AtNDT1 was presumed to reside in the chloroplast membrane, subcellular localization experiments with green fluorescent protein (GFP) fusions revealed that AtNDT1 locates exclusively in the mitochondrial membrane in stably transformed Arabidopsis plants. To understand the biological function of AtNDT1 in Arabidopsis, three transgenic lines containing an antisense construct of AtNDT1 under the control of the 35S promoter alongside a T‐DNA insertional line were evaluated. Plants with reduced AtNDT1 expression displayed lower pollen viability, silique length, and higher rate of seed abortion. Furthermore, these plants also exhibited an increased leaf number and leaf area concomitant with higher photosynthetic rates and higher levels of sucrose and starch. Therefore, lower expression of AtNDT1 was associated with enhanced vegetative growth but severe impairment of the reproductive stage. These results are discussed in the context of the mitochondrial localization of AtNDT1 and its important role in the cellular NAD⁺ homeostasis for both metabolic and developmental processes in plants.     

28S rDNA haplotypes of males are distinct from those of androgenetic hermaphrodites in the clam Corbicula leana

The clam Corbicula leana exists in two forms, hermaphrodites and males. Our previous study on mitochondrial DNA suggested that the male nuclear DNA might have derived from hermaphrodite C. leana relatively recently. To clarify the origin of males in the clam, sequences of the nuclear 28S rDNA divergent domain (which is 441-444 bp long) in androgenetic hermaphrodites and males and dioecious (bisexual) species were analyzed. Unexpectedly, the nuclear 28S rDNA haplotypes of males and hermaphrodites were distinct. Haplotype network analysis indicated that males and hermaphrodites are reproductively isolated from each other without sharing the same nuclear haplotype. These results support a hypothesis that the egg nuclear genome of androgenetic hermaphrodites is replaced by the male sperm genome, and only males develop after fertilization by a male spermatozoon.