Identification and quantification of endogenous gibberellins in apical buds and the cambial region of Eucalyptus

Endogenous gibberellins (GAs) were extracted and purified from apical buds of Eucalyptus nitens (Deane and Maid.) Maid. and the cambial region of E. globulus (Labill.). then analysed by capillary gas chromatography-mass spectrometry. GA₁ GA₁₉ GA₂₀ and GA₂₉ were identified by full scan mass spectra. Kovats retention indices and high resolution selected ion monitoring. Using deuterated internal standards. GA₁. GA₁₉. GA₂₀ and putative GA₂₉ and GA₅₃ were quantified in the apical buds, while GA₄. GA₈. GA₉ and GA₄₄ were shown to be either absent or present at very low levels. From the cambial region. GA₁ and GA₂₀ were quantified at levels of 0.30 ng (g fresh weight)-¹ and 8.8 ng (g fresh weight)-¹ respectively. These data suggest that the early 13-hydroxylation pathway is the dominant pathway for GA biosynthesis in Eucalyptus .     

Effect of exogenous amino acids,glucose and citric acid on the patterns of short-term accumulation and loss of amino acids in the root-zone of sand-cultured forage rape (Brassica napus L.)

Amino acid loss from the roots of 25-day-old, sterile and non-sterile sand-grown forage rape plants, was determined over periods of up to 3.5 hours. Amino acid accumulation in the root-zone of sterile plants was concentration-dependent giving a convex accumulation profile. Amino acid levels in the root zone of non-sterile plants rapidly attained steady state values. Microbial assimilation of amino acids within the root zone appeared to lower amino acid concentrations, resulting in an underestimation of rates of amino acid loss from roots. The concentrations of most amino acids were higher after selected amino acids were supplied to the root zone. The response to exogenous acids was dependent on the concentration and composition of the acids added. Addition of a mixture containing ASN, GLN and GABA, each at 0.25 mM resulted in a greater increase in individual and total acid levels compared with a mixture containing ALA, SER, GLY and THR at the same concentration. Apparently, amino acids supplied exogenously competed with acids lost from the plant, by providing an alternative nutrient source for root zone micro-organisms. Addition of glucose and citric acid had a similar effect to addition of ALA, SER, GLY and THR, but were less effective than ASN, GLN and GABA at all concentrations tested. The nitrogen-rich amino acids ASN and GLN, and the -amino acid, GABA, appeared to compete more effectively with plant-derived acids than did ALA, SER, GLY and THR, the most abundent constituents of the plant-derived acids, which had the highest calculated rates of microbial consumption. Therefore, although bacterial consumption showed a dependence on amino acid concentration, a degree of selectivity for nitrogen-rich acids and gaba was also apparent.     

Patterns of short-term amino acid accumulation and loss in the root-zone of liquid-cultured forage rape (Brassica napus L.)

Amino acid release from roots of sterile and non-sterile, solution-grown, 7-, 21- and 60-days-old forage rape plants (Brassica napus L.), was measured over periods of up to 6 hours. With sterile plants, release of amino acids into a fixed volume of collection medium (6, 12, 70 mL) was concentration-limited, giving rise to similar convex accumulation profiles for individual acids. In contrast, amino acid accumulation in continuously circulating collection medium was not concentration limited, giving a linear accumulation pattern. The compositions of accumulating amino acids, which were similar to those measured in root extracts, did not change significantly. However, the proportions of ALA, GABA, GLU and ILE in both root extracts and root-derived amino acids increased as plants aged. Older plants released more amino acids per plant, while younger plants released more amino acids g^-1 root DW. Using non-sterile plants, the patterns of change in amino acid concentration and composition in the collection medium were completely different from those determined with sterile plants. In general, with 7-days-old plants, and 60-days-old plants that had recently become non-sterile, an initial rise in the concentration of all acids was followed by a fall to low levels. The loss of amino acids was apparently due to microbial consumption. Individual amino acids attained maximum concentration at different times during the collection process. This is attributed mainly to concentration-dependent differential assimilation of amino acids, since those with the highest initial concentrations, the major components of the mixtures released from roots, declined the earliest. When calculated rates of amino acid release from roots (R_r) and microbial consumption of amino acids (R_c) were compared (for 7-days-old plants), the highest ratios of R_c/R_r were found for ASN, ARG, GLU, GLN, and LYS. This suggests a degree of selectivity for glutamate and nitrogen-rich acids on the part of the consuming micro-organisms. With 21-days old plants and 60-days old plants grown entirely under non-sterile conditions, fluctuations in amino acid concentration were similar for all acids.     

Isolation of region-specific probes from pig Chromosome 6 by coincidence cloning

Coincidence cloning is a technique that permits the isolation of sequences common to two independent sources of complex DNA, and this method has been used to isolate a set of probes from a region of porcine Chromosome (Chr) 6 containing the loci for glucosephosphate isomerase (GPI) and the skeletal muscle calcium release channel (CRC). Porcine DNA was specifically PCR-amplified from a pigxhamster hybrid cell line containing the centromere region (p1.2–q1.2) of pig Chr 6 and other pig chromosome fragments by use of a porcine SINE specific primer with an EcoRI site in the 5-end. Flow-sorted Chr 6 preparations were amplified with the same SINE primer, but with a SalI site in the 5-end. The products were digested with EcoRI and SalI respectively, combined, denatured, and reannealed. The heteroduplex molecules, containing both an EcoRI and a SalI cohensive end, were selected by cloning in SalI/EcoRI-digested pUC13. Approximately 40% of the primary clones contained a single SalI/EcoRI-insert, indicating that they are coincidence clones. The average insert size was 1.4 kb. Fluorescence in situ hybridization of a pool of 34 coincidence clones to pig chromosomes showed a preferential labeling of the centromere region and of the q2.5–q2.7 region of pig Chr 6. Nineteen coincidence clones were hybridized to SINE-PCR products from flow-sorted pig Chr 6 and to pigxrodent hybrid cell lines. Eighteen clones gave positive signals correlated with the GPI/CRC content of the source DNAs.     

Refining the genetic map for the region flanking the X-linked hypophosphataemic rickets locus (Xp22.1–22.2)

An analysis of five of the most common cystic fibrosis (CF) mutations worldwide (F-508, R-553X, G-551D, N-1303K and G-542X) was performed in 36 Chilean patients. Polymerase chain reaction (PCR) amplification of the DNA followed by allele specific restriction enzyme analysis was used for detection. The overall frequencies of the mutations in the chromosomes analyzed were 29.2% for F-508 and 4.2% for R-553X (n=72). The G-542X, G-551D and N-1303 K mutations were absent in the Chilean sample. Our data suggest however that F-508 is not the most common CF mutation in Chilean patients. F-508 and R-553X account for only 33.4% of the alleles; 66.6% of them do not respond to the probes used and still remain uncharacterized.     

Cloning and analysis of the polyhydroxyalkanoic acid synthase gene from an Acinetobacter sp.: Evidence that the gene is both plasmid and chromosomally located

Abstract The polyhydroxyalkanoic acid (PHA) synthase gene ( phaC_Ac ) of a species of Acinetobacter isolated from an activated sludge treatment plant was cloned by heterologous complementation in a poly-β-hydroxybutyrate (PHB) negative mutant of Alcaligenes eutrophus . Nucleotide sequence analysis of phaC_Ac revelaed an open reading frame of 1770 bp with potential to encode a 67.7 kDa protein. The deduced amino acid sequence displays high similarity to other PHA synthase proteins. Probing with an internal region of phaC_Ac revealed that the PHA sythase gene may be present in more than one copy and may occur at both plasmid and chromosomal locations in Acinetobacter spp. This is the first organisms for which evidence has been presented to suggest that a gene involved in PHA metabolism is plasmid-encoded. Purification of PHB granules from sucrose gradients identified proteins of 38 kDa, 41 kDa and 64 kDa which may have a role in PHB metabolism.     

Inactivation of bleomycin by an N-acetyltransferase in the bleomycin-producing strain Streptomyces verticillus

Abstract Bleomycin-producing Streptomyces verticillus ATCC15003 possesses a bleomycin acetyltransferase which inactivates the drug in the presence of acetyl coenzyme A. The site of acylation in enzymically prepared acetylbleomycin A2 was determined by nuclear magnetic resonance analysis; the primary amino group of the β-aminoalanine moiety of bleomycin was acetylated. Acetylbleomycin A2 had no detectable antibacterial activity and did not induce in vitro DNA degradation.     

Isolation of humic acid from the brown algaPilayella littoralis

A standard humic acid extraction procedure has been used to isolate dark brown organic residues from samples of the macroscopic marine brown algaPilayella littoralis. The residues are insoluble in water, but soluble at high pH, and are similar in elemental composition, ash content, UV-visible, IR, PMR and X-Ray fluorescence spectra, X-Ray diffractograms and scanning electron micrographs to residues of a humic acid isolated from municipal compost. These results indicate thatPilayella produces humic acids.Author for correspondence