Chemical composition of the peptidoglycan-free cell walls of methanogenic bacteria

Cell walls were prepared from freeze-dried samples of 7 strains of Methanobacterium by mechanical disintegration of the cells followed by incubation with trypsin. Electron microscopy revealed the presence of sacculi exhibiting the shape of the original cells, on which no surface structure could be detected. Ultrathin sections of the isolated sacculi showed a homogenously electron dense layer of about 10–15 nm in width. The ash content varied between 8 and 18% of dry weight. The sacculi of all the strains contained Lys: Ala: Glu: GlcNAc or GalNAc in a molar ratio of about 1:1.2:2:1. In one strain (M. ruminantium M 1) alanine is replaced by threonine, however. Neutral sugars and-in some strains-additional amounts of the amino sugars were present in variable amounts, and could be removed by formamide extraction or HF treatment without destroying the sacculi. No muramic acid or d-amino acids typical of peptidoglycan were found. Therefore, the sacculi of the methanobacteria consist of a different polymer containing a set of three l-amino acids and one N-acetylated amino sugar. From cells of Methanospirillum hungatii no sacculi, but tube-like sheaths could be isolated, which tend to fracture perpendicularly to the long axis of the sheath along the fibrills seen on the surface. The sheaths consist of protein containing 18 amino acids and small amounts of neutral sugars. They are resistent to the proteinases tested and are not disintegrated by boiling in 2% sodium dodecylsulfate for 30 min.The three Gram-negative strains Black Sea isolate JR-1, Cariaco isolate JR-1 and Methanobacterium mobile do not contain a rigid sacculus, but merely a SDS-sensitive surface layer composed of regularly arranged protein subunits. This evidence indicates that, within the methanogens, different cell wall polymers characteristic of particular groups of organisms may have evolved during evolution, and supports the hypothesis that the evolution of the methanogens was separated from that of the peptidoglycan-containing procaryotic organisms at a very early stage.Non Standard Abbreviations SDS sodium dodecylsulfate - EDTA ethylenediaminetetra acetic acid - DNP dinitrophenyl Dedicated to Prof. Dr. Adolf Butenandt on the occasion of his 75th birthday     

Purification and properties of d-hydantoin hydrolase and N-carbamoyl-d-amino acid amidohydrolase from Flavobacterium sp. AJ11199 and Pasteurella sp. AJ11221

We characterized recombinant d-hydantoin hydrolase (DHHase) and N-carbamoyl-d-amino acid amidohydrolase (DCHase) from Flavobacterium sp. AJ11199 and Pasteurella sp. AJ11221. The DHHases from these two strains showed a wide range of hydrolytic activity for various 5-monosubstituted d-hydantoin compounds, including a very high level activity for d-hydantoin compounds corresponding to d-aromatic amino acids such as d-tryptophan d-phenylalanine and d-tyrosine. The DCHases, in turn, were capable of catalyzing the hydrolysis of various N-carbamoyl-d-amino acids (NCD-A.A.) corresponding to d-aliphatic and d-aromatic amino acids. The combination of these enzymes was found to be applicable for the production of various d-amino acids.     

The amino acid transport systems of the autotrophically grown green alga Chlorella

The kinetic analysis of l-amino acid uptake by the green alga Chlorella revealed at least seven different uptake systems to be present in cells grown autotrophically with nitrate as nitrogen source. There is a ‘general system’ which transports most neutral and acidic amino acids, a system for short-chain neutral amino acids including proline, a system for basic amino acids including histidine, a special system for acidic amino acids, and specific systems for methionine, glutamine and threonine. The ‘general system’ is possibly the same as that which can be stimulated by incubation of cells in glucose plus ammonium (Sauer, N. (1984) Planta 161, 425–431). The incubation of Chlorella in glucose induces the increased synthesis of six amino acid uptake systems, namely the above-mentioned system for short-chain neutral amino acids, a threonine system, a methionine system, and a glutamine system. These results indicate that the uptake of l-amino acids by the green alga Chlorella is as complex as in other free-living organisms such as bacteria or yeast. The small number of amino acid uptake systems found in cells of higher plants, i.e. two or three, seems therefore to be a consequence of integration of the cells in a tissue supplying a relatively constant environment, and not a consequence of autotrophic growth on mineral carbon and mineral nitrogen.     

Regulation of amino acid and glucose dissimilation in so-called ammonifiers and in other soil microorganisms

Pseudomonas acidovorans and P. putida, isolated from an enrichment culture with casein hydrolysate, and Agrobacterium radiobacter and Torulopsis sp., isolated from a glucose enrichment, were compared with respect to the physiology of ammonification. Decreasing ammonifying ability as well as increasing repression of the synthesis of amino acid degrading enzymes by glucose were found in the above order of organisms. In degradation sequences, observed with P. putida and A. radiobacter as test organisms, substances dissimilated prior to others had both, enhancing and repressing effects on the oxidation of the other compounds. This fact was parallelled by the observation, that in these two bacteria, glucose and single amino acids, when added to the same medium, exerted mutual repression of the synthesis of catabolic enzymes of their partners. The ecological significance of this type of regulation has been discussed.     

Seasonal patterns of nucleic acid concentrations and amino acid profiles of Parapenaeus longirostris (Crustacea, Decapoda): relation to growth and nutritional condition

The present work describes the seasonal changes in nucleic acid concentrations and amino acid profiles in the muscle of juvenile Parapenaeus longirostris and their relation to growth and nutritional condition. RNA content varied significantly between seasons, being the highest values attained in spring and the lowest in winter (p < 0.05). Similar results were obtained with RNA:protein and RNA:DNA ratios. In respect to total amino acid content (TAA), a significant increase from winter to spring was observed (p < 0.05) and the major essential amino acids (EAA) were arginine, histidine and leucine. Within non-essential amino acids (NEAA) glutamic acid, aspartic acid, glycine and proline were dominant. From winter to spring, a significant variation in NEAA content occurred (26.8; p < 0.05), mainly due to the significant increase of glutamic acid (79.1) and serine (66.7) (p < 0.05). EAA content did not vary significantly between seasons (p > 0.05). In opposition, during this period a significant decrease in the free amino acid content (FAA) was observed (p < 0.05); a higher percentage of decrease was attained in free non-essential (FNEAA – 42.9) in comparison to free essential amino acids (FEAA – 40.2). The significant increase in RNA and TAA contents from winter to spring may be related with protein synthesis. On the other hand, the lowest values obtained in winter may be due to a reduction in feeding activity; in this period the muscle protein must be progressively hydrolysed, which is evident with the higher FAA content. The liberated amino acids enter FAA pool and become available for energy production. In conclusion, it was evident that the seasonal cycle in activities such as feeding and growth with nucleic acids and amino acid analyses was noticed.     

Molecular evolutionary analysis of the widespread<Emphasis Type="Italic"> piggyBac</Emphasis> transposon family and related "domesticated" sequences

piggyBac is a short inverted-repeat-type DNA transposable element originally isolated from the genome of the moth Trichoplusia ni. It is currently the gene vector of choice for the transformation of various insect species. A few sequences with similarity to piggyBac have previously been identified from organisms such as humans ( Looper), the pufferfish Takifugu rubripes (Pigibaku), Xenopus (Tx), Daphnia (Pokey), and the Oriental fruit fly Bactrocera dorsalis. We have now identified 50 piggyBac-like sequences from publicly available genome sequences and expressed sequence tags (ESTs). This survey allows the first comparative examination of the distinctive piggyBac transposase, suggesting that it might contain a highly divergent DDD domain, comparable to the widespread DDE domain found in many DNA transposases and retroviral integrases which consists of two absolutely conserved aspartic acids separated by about 70 amino acids with a highly conserved glutamic acid about 35 amino acids further away. Many piggyBac-like sequences were found in the genomes of a phylogenetically diverse range of organisms including fungi, plants, insects, crustaceans, urochordates, amphibians, fishes and mammals. Also, several instances of "domestication" of the piggyBac transposase sequence by the host genome for cellular functions were identified. Novel members of the piggyBac family may be useful in genetic engineering of many organisms.Electronic Supplementary Material Supplementary material is available in the online version of this article at     

Leaching of zinc from an industrial filter dust withPenicillium,Pseudomonas andCorynebacterium: Citric acid is the leaching agent rather than amino acids

Summary Heterotrophic microorganisms are able to solubilize metals via excreted metabolites-most often di- or tricarboxylic acids but also amino acids. With amino acids Cu, Zn, Au, Ni, U, Hg and Sb have been solubilized from metal oxides, metal sulfides or elementary metals. In this work it was investigated if excreted amino acids play a role in the leaching of zinc from a zinc oxide containing industrial filter dust. Two bacteria-Pseudomonas putida andCorynebacterium glutamicum-and a fungus-Penicillium simplicissimum were used.P. putida andP. Simplicissimum have already been used to solubilize zinc oxide, whereasC. glutamicum was used because of its known ability to excrete amino acids. Amino acids in culture fluids were analyzed via derivatization with phenyl isothiocyanate, separation on a RP-18 column and UV-detection. All three microorganisms solubilized zinc from the filter dust and excreted much more citric acid than amino acids. Thus citric acid rather than amino acids was regarded to be the leaching agent. Of the two bacteriaP. putida was more resistant towards the heavy metalcontaining filter dust.     

Involvement of the <Emphasis Type="Italic">Arabidopsis thaliana AtPMS1</Emphasis> gene in somatic repeat instability

Mismatch repair (MMR) genes participate in the maintenance of genome stability in all organisms. Based on its high degree of sequence conservation, it seems likely that the AtPMS1 gene of Arabidopsis thaliana is part of the MMR system in this model plant. To test this hypothesis, we aimed to disrupt AtPMS1 function by over-expressing mutated alleles expected to result in a dominant negative effect. To create one mutant allele we substituted two amino acids in the MutL-box, and for the other mutant allele we deleted 87 amino acids comprising the whole MutL-box. Contrary to published reports in some eukaryotes, transgenic plants expressing these alleles did not exhibit a decrease in fertility nor any other visible phenotype. To examine the impact of these mutations on microsatellite instability, the phenotype most often observed in organisms defective in MMR, reporter lines containing a uidA (GUS) gene inactivated by the insertion of a synthetic microsatellite (G₇ or G₁₆) were used. GUS gene function in these lines can be restored following the loss of one base or the gain of two bases in the repetitive tract. This results in the observation of blue sectors on a white background following histochemical staining. In a subset of the transformants, a significant increase (2- to 28-fold) in microsatellite instability was observed relative to wild-type. This report shows that MMR function can be disrupted via a dominant negative approach, and it is the first report to describe the phenotypic consequence of disrupting the function of a MutL homolog in plants.     

Equilibrium of the Cis-Trans Isomerisation of the Peptide Bond with N-alkyl Amino Acids Measured by 2D NMR

Summary The conformationalcis-trans equilibrium around the peptide bond in model tripeptides has been determined by 2D NMR methods (HOHAHA, ROESY). The study was limited to three different N-substituted amino acids in position 2, namely Pro (proline), Tic (1,2,3,4-tetrahydroisoquinoline-3-carboxylic acid), and N-MePhe (N-methylphenylalanine). In all cases the amino acid in position 1 was tyrosine and in position 3, phenylalanine. The results of our studies show that thecis-trans ratio depends mostly on the configuration of the amino acids forming the peptide bond undergoing thecis-trans isomerisation. The amino acid following the sequence (in position 3) does not have much influence on thecis-trans isomerisation, indicating that there is no interaction of the side chains between these amino acids. The model peptides with the L-Tyr-L-AA-(L-or D-)Phe (where AA is N-substituted amino acid) chiralities give 80–100% more of thecis form in comparison to the corresponding peptides with the D-Tyr-L-AA-(L-or D-)Phe chiralities. These results indicate that the incorporation of N-substituted amino acids in small peptides with the same chirality as the precedent amino acid involved in the peptide bound undergoing thecis/trans isomerisation moves the equilibrium to a significant amount of thecis form.     

Mitochondrial cytochrome C oxidase subunit I of Manduca sexta and a comparison with other invertebrate genes

A cDNA encoding mitochondrial cytochrome c oxidase subunit I (mt COI) from Manduca sexta (Lepidoptera: Sphingidae) was cloned and sequenced. AT (adenine-thymine) content is high and codon usage is biased and likely reflects the role of mt COI in electron transport. The encoded protein is 514 amino acids long, contains seven invariant His residues observed in COIs in all organisms and would be predicted to be composed of 12 transmembrane regions.     

Distribution of isoasparagine among different characean species

Thirteen species of Characeae were analyzed for their free amino acid contents. Large amounts of isoasparagine, accounting for 10 to 50% of the total free amino acids, were found in extracts fromChara (5 species including one unidentified),Nitellopsis (1 species), andLamprothamnium (1 species). In contrast, no isoasparagine was detected inNitella (5 species) andTolypella (1 species), except forN. flexilis in which as much as 40% of the free amino acids was isoasparagine. Other major amino acids found in the tested materials were Ala, Asp, Glu and Gln.     

Behavioral Adaptations to Pollen-Feeding in Heliconius Butterflies (Nymphalidae, Heliconiinae): An Experiment Using Lantana Flowers

Butterflies in the genera Heliconius and Laparus obtain fitness-related benefits from using amino acids derived from pollen. These butterflies have morphological features of the proboscis that facilitate pollen-feeding. Here we investigate behavioral characteristics potentially involved in pollen-gathering. Analysis of four behavioral characters showed that pollen-feeding species manipulate Lantana flowers faster and more thoroughly compared to non-pollen-feeding relatives. Although this suggests that pollen-feeding species are potentially more efficient in harvesting pollen, every butterfly tested successfully removed pollen from Lantana and non-pollen-feeding butterflies generally extracted larger amounts of pollen than Heliconius and Laparus. Morphological characteristics of the proboscis and the production of abundant fluid exudate help keep pollen attached in the proboscis for long periods of time—possibly key to Heliconius' and Laparus' ability to obtain amino acids from pollen. Our results, in concert with those of previous morphological analysis, indicate that behavioral and structural attributes associated with pollen-feeding in Heliconius and Laparus are subtle modifications of widespread butterfly characteristics and raise the question why other butterflies do not use pollen in their diet.     

Heterotrophic growth patterns in the unicellular alga Cyanidium caldarium

A strain of Cyanidium caldarium has been studied which is able to grow in darkness using amino acids as sole energy sources. During growth ammonia was released into the external medium as a catabolic end product. With either threonine or glutamate similar rates of ammonia formation and similar kinetics of growth were observed. These observations suggest that the amounts of energy made available for cell growth from the two amino acids are equivalent.Deamination of threonine and glutamate by whole cells exhibited similar temperature-dependence profiles and similar Arrhenius energies of activation. Thus it is suggested that a partially common pathway is involved in the catabolism of these amino acids. Threonine dehydrase may play a role in this pathway.The threonine dehydrase of C. caldarium was inhibited by isoleucine and activated by valine. In the absence of isoleucine no cooperative effect of threonine was observed.Succinate or 2-ketoglutarate supported a faster growth than did amino acids. Growth tests in the presence of both a krebs cycle intermediate and an amino acid have shown that the oxidative metabolism of amino acids is in some way controlled by the more suitable energy sources, presumably through catabolite inhibition and catabolite repression.     

冬虫夏草菌菌丝体中的氨基酸及其衍生物的代谢组学分析

为探究冬虫夏草菌（Ophiocordyceps sinensis）菌丝体氨基酸及其衍生物的差异性,采用超高效液相色谱串联质谱（Ultra performance liquid Chromatography, tandem mass spectrometry, UPLC-MS/MS）技术对3株冬虫夏草菌（玉树菌株XSH、达日菌株DR、贵德菌株LJ）菌丝体的氨基酸及其衍生物进行靶向定量检测,利用主成分分析（Principal component analysis, PCA）和正交偏最小二乘判别分析（Orthogonal signal correction and partial least squares-discriminant analysis, OPLS-DA）考察样品分类情况、筛选差异代谢物。结果表明,3株菌株菌丝体中均检测到72种氨基酸及其衍生物,发现除组氨酸外可合成蛋白质的19种氨基酸,菌株XSH的总氨基酸及必需氨基酸绝对含量均高于其他菌株。菌株XSH相比菌株DR和菌株LJ分别含有29种和28种差异氨基酸及其衍生物,菌株DR相比菌株LJ含有10种差异氨基酸及其衍生物,此外,3株菌株菌丝体含有3个共有的差异氨基酸及其衍生物,分别为高精氨酸、N-乙酰-L-谷氨酰胺、肌氨酸。京都基因与基因组百科全书（Kyoto encyclopedia of genes and genomes,KEGG）通路富集分析显示,差异氨基酸及其衍生物在精氨酸和脯氨酸代谢通路中更活跃,不同产区冬虫夏草菌株的氨基酸含量可能受精氨酸和脯氨酸代谢通路的影响。基于研究结果发现不同产区的冬虫夏草菌株的氨基酸及其衍生物存在较大的差异。     

Maximum likelihood inference of protein phylogeny and the origin of chloroplasts

Summary A maximum likelihood method for inferring protein phylogeny was developed. It is based on a Markov model that takes into account the unequal transition probabilities among pairs of amino acids and does not assume constancy of rate among different lineages. Therefore, this method is expected to be powerful in inferring phylogeny among distantly related proteins, either orthologous or parallogous, where the evolutionary rate may deviate from constancy. Not only amino acid substitutions but also insertion/deletion events during evolution were incorporated into the Markov model. A simple method for estimating a bootstrap probability for the maximum likelihood tree among alternatives without performing a maximum likelihood estimation for each resampled data set was developed. These methods were applied to amino acid sequence data of a photosynthetic membrane protein,psbA, from photosystem II, and the phylogeny of this protein was discussed in relation to the origin of chloroplasts.     

Combination and positional distribution of fatty acids in lipids from blue-green algae

The main glycerolipids (monogalactosyl-, digalactosyl-, sulphoquinovosyl diacylglycerol, phosphatidylglycerol) from five blue-green algae (Microcystis, Anabaena, Nostoc, Oscillatoria, Tolypothrix) were analyzed for fatty acid composition, occurrence of diglyceride species and positional distribution of fatty acids between thesn-1- andsn-2-position of glycerol. In contrast to eucaryotic plants biosynthetically closely related lipids (monogalactosyl-, digalactosyl-, trigalactosyl diacylglycerol) show nearly identical diglyceride moieties, whereas sulphoquinovosyl diacylglycerol and phosphatidylglycerol are separated from galactolipids by composition as well as occurrence of fatty acids. On the other hand the positional distribution of fatty acids in all lipids is controlled exclusively by chain length and not by degree of unsaturation with C₁₈-fatty acids at thesn-1- and C₁₆-fatty acids at thesn-2-position. These results show that in procaryotic organisms the diversity in diglyceride portions of lipids is reduced as compared to eucaryotic organisms, but nevertheless does exist.Abbreviations MGD, DGD, TGD, SQD monogalactosyl-, digalactosyl-, trigalactosyl-, sulphoquinovosyl diacylglycerol - PG phosphatidyl glycerol     

Liberation of amino acids by heterotrophic nitrogen fixing bacteria

Summary. Large amounts of amino acids are produced by nitrogen-fixing bacteria such as Azotobacter, Azospirillum, Rhizobium, Mesorhizobium and Sinorhizobium when growing in culture media amended with different carbon and nitrogen sources. This kind of bacteria live in close association with plant roots enhanced plant growth mainly as a result of their ability to fix nitrogen, improving shoot and root development suppression of pathogenic bacteria and fungi, and increase of available P concentration. Also, it has been strongly evidenced that production of biologically substances such as amino acids by these rhizobacteria are involved in many of the processes that explain plant-grown promotion. This paper reviews literature concerning amino acids production by nitrogen-fixing bacteria. The role of amino acids in microbial interactions in the rhizosphere and establishment of plant bacterial association is also discussed.     

Expression of the <Emphasis Type="Italic">UGA4</Emphasis> gene encoding the δ-aminolevulinic and γ-aminobutyric acids permease in <Emphasis Type="Italic">Saccharomyces cerevisiae</Emphasis> is controlled by amino acid-sensing systems

In yeasts, several sensing systems localized to the plasma membrane which transduce information regarding the availability and quality of nitrogen and carbon sources and work in parallel with the intracellular nutrient-sensing systems, regulate the expression and activity of proteins involved in nutrient uptake and utilization. The aim of this work was to establish whether the cellular signals triggered by amino acids modify the expression of the UGA4 gene which encodes the δ-aminolevulinic (ALA) and γ-aminobutyric (GABA) acids permease. In the present paper, we demonstrate that extracellular amino acids regulate UGA4 expression and that this effect seems to be mediated by the amino acid sensor complex SPS (SSY1, PTR3, SSY5).     

Domain structures of chlorophyllide<Emphasis Type="Italic"> a</Emphasis> oxygenase of green plants and<Emphasis Type="Italic"> Prochlorothrix hollandica</Emphasis> in relation to catalytic functions

Chlorophyll b is a photosynthetic antenna pigment found in prochlorophytes and chlorophytes. In chlorophytes, its biosynthesis regulates the photosynthetic antenna size. Chlorophyll b is synthesized from chlorophyll a in a two-step oxygenation reaction by chlorophyllide a oxygenase (CAO). In this study, we first identified the entire sequence of a prochlorophyte CAO gene from Prochlorothrix hollandica to compare it with those from chlorophytes, and we examined the catalytic activity of the gene product. Southern blot analysis showed that the CAO gene is presented in one copy in the P. hollandica genome. The P. hollandica CAO gene (PhCAO) has a coding capacity for 367 amino acids, which is much smaller than that of Arabidopsis thaliana (537 amino acids) and Oryza sativa (542 amino acids) CAO genes. In spite of the small size, PhCAO catalyzed the formation of chlorophyll b. By comparing these sequences, we classified the land-plant sequences into four parts: the N-terminal sequence predicted to be a transit peptide, the successive conserved sequence unique in land plants (A-domain, 134 amino acids), a less-conserved sequence (B-domain, 30 amino acids) and the C-terminal conserved sequence common in chlorophytes and prochlorophytes (C-domain, 337 to 344 amino acids). We demonstrated that the C-domain is sufficient for catalytic activity by transforming the cyanobacterium Synechocystis sp. PCC6803 with the C-domain from A. thaliana. In this paper, the role of the A-domain is discussed in relation to the formation of light-harvesting chlorophyll a/b–protein complexes in land plants.Abbreviations CAO Chlorophyllide a oxygenase - CP Chlorophyll protein - HPLC High-performance liquid chromatography - LHC Light-harvesting complex - PCR Polymerase chain reaction - PS Photosystem