Decreasing the Level of Ethyl Acetate in Ethanolic Fermentation Broths of Escherichia coli KO11 by Expression of Pseudomonas putida estZ Esterase

During the fermentation of sugars to ethanol relatively high levels of an undesirable coproduct, ethyl acetate, are also produced. With ethanologenic Escherichia coli strain KO11 as the biocatalyst, the level of ethyl acetate in beer containing 4.8% ethanol was 192 mg liter⁻¹. Although the E. coli genome encodes several proteins with esterase activity, neither wild-type strains nor KO11 contained significant ethyl acetate esterase activity. A simple method was developed to rapidly screen bacterial colonies for the presence of esterases which hydrolyze ethyl acetate based on pH change. This method allowed identification of Pseudomonas putida NRRL B-18435 as a source of this activity and the cloning of a new esterase gene, estZ. Recombinant EstZ esterase was purified to near homogeneity and characterized. It belongs to family IV of lipolytic enzymes and contains the conserved catalytic triad of serine, aspartic acid, and histidine. As expected, this serine esterase was inhibited by phenylmethylsulfonyl fluoride and the histidine reagent diethylpyrocarbonate. The native and subunit molecular weights of the recombinant protein were 36,000, indicating that the enzyme exists as a monomer. By using α-naphthyl acetate as a model substrate, optimal activity was observed at pH 7.5 and 40°C. The K_m and V_max for α-naphthyl acetate were 18 μM and 48.1 μmol·min⁻¹·mg of protein⁻¹, respectively. Among the aliphatic esters tested, the highest activity was obtained with propyl acetate (96 μmol·min⁻¹·mg of protein⁻¹), followed by ethyl acetate (66 μmol·min⁻¹·mg of protein⁻¹). Expression of estZ in E. coli KO11 reduced the concentration of ethyl acetate in fermentation broth (4.8% ethanol) to less than 20 mg liter⁻¹.     

Progress in the discovery of selective, high affinity A2B adenosine receptor antagonists as clinical candidates

The selective, high affinity A_2B adenosine receptor (AdoR) antagonists that were synthesized by several research groups should aid in determining the role of the A_2B AdoR in inflammatory diseases like asthma or rheumatoid arthritis (RA) and angiogenic diseases like diabetic retinopathy or cancer. CV Therapeutics scientists discovered the selective, high affinity A_2B AdoR antagonist 10, a 8-(4-pyrazolyl)-xanthine derivative [CVT-6883, K_i(hA_2B)=22 nM; K_i(hA₁)=1,940 nM; K_i(hA_2A)=3,280; and K_i(hA₃)=1,070 nM] that has favorable pharmacokinetic (PK) properties (t_1/2=4 h and F>35% rat). Compound 10 demonstrated functional antagonism at the A_2B AdoR (K_B=6 nM) and efficacy in a mouse model of asthma. In two phase 1 clinical trials, CVT-6883 was found to be safe, well tolerated, and suitable for once daily dosing. A second compound 20, 8-(5-pyrazolyl)-xanthine, has been nominated for development from Baraldi’s group in conjunction with King Pharmaceuticals that has favorable A_2B AdoR affinity and selectivity [K_i(hA_2B)=5.5 nM; K_i(hA₁) >1,000 nM; K_i(hA_2A) >1,000; and K_i(hA₃) >1,000 nM], and it has been demonstrated to be a functional antagonist. A third compound 32, a 2-aminopyrimidine, from the Almirall group has high A_2B AdoR affinity and selectivity [K_i(hA_2B)=17 nM; K_i(hA₁) >1,000 nM; K_i(hA_2A) >2,500; and K_i(hA₃) >1,000 nM], and 32 has been moved into preclinical safety testing. Since three highly selective, high affinity A_2B AdoR antagonists have been nominated for development with 10 (CVT-6883) being the furthest along in the development process, the role of the A_2B AdoR in various disease states will soon be established.     

Meta-Analysis of Genome-Wide Scans for Human Adult Stature Identifies Novel Loci and Associations with Measures of Skeletal Frame Size

Recent genome-wide (GW) scans have identified several independent loci affecting human stature, but their contribution through the different skeletal components of height is still poorly understood. We carried out a genome-wide scan in 12,611 participants, followed by replication in an additional 7,187 individuals, and identified 17 genomic regions with GW-significant association with height. Of these, two are entirely novel (rs11809207 in CATSPER4, combined P-value=6.1×10⁻⁸ and rs910316 in TMED10, P-value=1.4×10⁻⁷) and two had previously been described with weak statistical support (rs10472828 in NPR3, P-value=3×10⁻⁷ and rs849141 in JAZF1, P-value=3.2×10⁻¹¹). One locus (rs1182188 at GNA12) identifies the first height eQTL. We also assessed the contribution of height loci to the upper- (trunk) and lower-body (hip axis and femur) skeletal components of height. We find evidence for several loci associated with trunk length (including rs6570507 in GPR126, P-value=4×10⁻⁵ and rs6817306 in LCORL, P-value=4×10⁻⁴), hip axis length (including rs6830062 at LCORL, P-value=4.8×10⁻⁴ and rs4911494 at UQCC, P-value=1.9×10⁻⁴), and femur length (including rs710841 at PRKG2, P-value=2.4×10⁻⁵ and rs10946808 at HIST1H1D, P-value=6.4×10⁻⁶). Finally, we used conditional analyses to explore a possible differential contribution of the height loci to these different skeletal size measurements. In addition to validating four novel loci controlling adult stature, our study represents the first effort to assess the contribution of genetic loci to three skeletal components of height. Further statistical tests in larger numbers of individuals will be required to verify if the height loci affect height preferentially through these subcomponents of height.     

Spontaneous muscle action potentials fail to develop without fetal-type acetylcholine receptors

In mammals, two combinations of muscle nicotinic acetylcholine receptors (AChRs) are used: α₂βγδ (γ-AChR) or α₂βδ (-AChR). After birth, γ-AChRs are replaced by -AChRs (γ/-switch). The two receptors have different conductances and open times. During perinatal period, the long open time γ-AChRs generate random myofiber action potentials from uniquantal miniature end-plate potentials (mEPPs). -AChRs are suitable for strong adult muscle activities. Since the effect of the γ/-switch on neuromuscular development was unclear, despite the many differences in channel characteristics, we carried out this study to generate γ-subunit-deficient mice. Homozygotes born alive survived for 2 days in a stable condition, and were able to move their forelimbs. Endplate AChRs included -subunits, and muscle fibers had multiple neuromuscular junctions. Both pre- and postsynapses were abnormal and spontaneous action potentials generated from mEPPs were totally absent. Results suggest a requirement for γ-AChRs in mediating synaptically-induced action potential activity critical for neuromuscular development.     

Synthesis and characterization of 2′-modified-4′-thioRNA: a comprehensive comparison of nuclease stability

We report herein the synthesis and physical and physiological characterization of fully modified 2′-modified-4′-thioRNAs, i.e. 2′-fluoro-4′-thioRNA (F-SRNA) and 2′-O-Me-4′-thioRNA (Me-SRNA), which can be considered as a hybrid chemical modification based on 2′-modified oligonucleotides (ONs) and 4′-thioRNA (SRNA). In its hybridization with a complementary RNA, F-SRNA (15mer) showed the highest T_m value (+16°C relative to the natural RNA duplex). In addition, both F-SRNA and Me-SRNA preferred RNA as a complementary partner rather than DNA in duplex formation. The results of a comprehensive comparison of nuclease stability of single-stranded F-SRNA and Me-SRNA along with 2′-fluoroRNA (FRNA), 2′-O-MeRNA (MeRNA), SRNA, and natural RNA and DNA, revealed that Me-SRNA had the highest stability with t_1/2 values of>24h against S1 nuclease (an endonuclease) and 79.2min against SVPD (a 3′-exonuclease). Moreover, the stability of Me-SRNA was significantly improved in 50% human plasma (t_1/2=1631min) compared with FRNA (t_1/2=53.2min) and MeRNA (t_1/2=187min), whose modifications are currently used as components of therapeutic aptamers. The results presented in this article will, it is hoped, contribute to the development of 2′-modified-4′-thioRNAs, especially Me-SRNA, as a new RNA molecule for therapeutic applications.     

Common Elements Regulating Gene Expression in Temperate and Lytic Bacteriophages of Lactococcus Species

A phage-inducible middle promoter (P_15A10) from the lytic, lactococcal bacteriophage 31, a member of the P335 species, is located in an 888-base pair fragment near the right cohesive end. Sequence analysis revealed extensive homology (>95%) to the right cohesive ends of two temperate phages of the P335 species, r1t and LC3. Sequencing upstream and downstream of P_15A10 showed that the high degree of homology between 31 and r1t continued beyond the phage promoter. With the exception of one extra open reading frame in 31, the sequences were highly homologous (95 to 98%) between nucleotides 13448 and 16320 of the published r1t sequence. By use of a β-galactosidase (β-Gal) gene under the control of a smaller, more tightly regulated region within the P_15A10 promoter, P_566–888, it was established that mitomycin C induction of a lactococcal strain harboring the prophage r1t induced the P_566–888 promoter, as determined from an increase in β-Gal activity. Hybridization of nine other lactococcal strains with ³²P-labeled P_566–888 showed that the Lactococcus lactis strains C10, ML8, and NCK203 harbored sequences homologous to that of the phage-inducible promoter. Mitomycin C induced the resident prophages in all these strains and concurrently induced the P_566–888 promoter, as determined from an increase in β-Gal activity. DNA restriction analysis revealed that the prophages in C10, ML8, and NCK203 had identical restriction patterns which were different from that of r1t. In addition, DNA sequencing showed that the promoter elements in the three phages were identical to each other and to P_566–888 from the lytic phage 31. These results point to a conserved mechanism in the regulation of gene expression between the lytic phage 31 and at least two temperate bacteriophages and provide further evidence for a link in the evolution of certain temperate phages and lytic phages.     

Biodegradation of Hexahydro-1,3,5-Trinitro-1,3,5-Triazine and Its Mononitroso Derivative Hexahydro-1-Nitroso-3,5-Dinitro-1,3,5-Triazine by Klebsiella pneumoniae Strain SCZ-1 Isolated from an Anaerobic Sludge

In previous work, we found that an anaerobic sludge efficiently degraded hexahydro-1,3,5-trinitro-1,3,5-triazine (RDX), but the role of isolates in the degradation process was unknown. Recently, we isolated a facultatively anaerobic bacterium, identified as Klebsiella pneumoniae strain SCZ-1, using MIDI and the 16S rRNA method from this sludge and employed it to degrade RDX. Strain SCZ-1 degraded RDX to formaldehyde (HCHO), methanol (CH₃OH) (12% of total C), carbon dioxide (CO₂) (72% of total C), and nitrous oxide (N₂O) (60% of total N) through intermediary formation of methylenedinitramine (O₂NNHCH₂NHNO₂). Likewise, hexahydro-1-nitroso-3,5-dinitro-1,3,5-triazine (MNX) was degraded to HCHO, CH₃OH, and N₂O (16.5%) with a removal rate (0.39 μmol·h⁻¹·g [dry weight] of cells⁻¹) similar to that of RDX (0.41 μmol·h⁻¹·g [dry weight] of cells⁻¹) (biomass, 0.91 g [dry weight] of cells·liter⁻¹). These findings suggested the possible involvement of a common initial reaction, possibly denitration, followed by ring cleavage and decomposition in water. The trace amounts of MNX detected during RDX degradation and the trace amounts of hexahydro-1,3-dinitroso-5-nitro-1,3,5-triazine detected during MNX degradation suggested that another minor degradation pathway was also present that reduced —NO₂ groups to the corresponding —NO groups.     

Admixture Mapping of 15,280 African Americans Identifies Obesity Susceptibility Loci on Chromosomes 5 and X

The prevalence of obesity (body mass index (BMI) ≥30 kg/m²) is higher in African Americans than in European Americans, even after adjustment for socioeconomic factors, suggesting that genetic factors may explain some of the difference. To identify genetic loci influencing BMI, we carried out a pooled analysis of genome-wide admixture mapping scans in 15,280 African Americans from 14 epidemiologic studies. Samples were genotyped at a median of 1,411 ancestry-informative markers. After adjusting for age, sex, and study, BMI was analyzed both as a dichotomized (top 20% versus bottom 20%) and a continuous trait. We found that a higher percentage of European ancestry was significantly correlated with lower BMI (ρ=−0.042, P=1.6×10⁻⁷). In the dichotomized analysis, we detected two loci on chromosome X as associated with increased African ancestry: the first at Xq25 (locus-specific LOD=5.94; genome-wide score=3.22; case-control Z=−3.94); and the second at Xq13.1 (locus-specific LOD=2.22; case-control Z=−4.62). Quantitative analysis identified a third locus at 5q13.3 where higher BMI was highly significantly associated with greater European ancestry (locus-specific LOD=6.27; genome-wide score=3.46). Further mapping studies with dense sets of markers will be necessary to identify the alleles in these regions of chromosomes X and 5 that may be associated with variation in BMI.     

Neuropeptide Y Gene Polymorphisms Confer Risk of Early-Onset Atherosclerosis

Neuropeptide Y (NPY) is a strong candidate gene for coronary artery disease (CAD). We have previously identified genetic linkage to familial CAD in the genomic region of NPY. We performed follow-up genetic, biostatistical, and functional analysis of NPY in early-onset CAD. In familial CAD (GENECARD, N=420 families), we found increased microsatellite linkage to chromosome 7p14 (OSA LOD=4.2, p=0.004) in 97 earliest age-of-onset families. Tagged NPY SNPs demonstrated linkage to CAD of a 6-SNP block (LOD=1.58–2.72), family-based association of this block with CAD (p=0.02), and stronger linkage to CAD in the earliest age-of-onset families. Association of this 6-SNP block with CAD was validated in: (a) 556 non-familial early-onset CAD cases and 256 controls (OR 1.46–1.65, p=0.01–0.05), showing stronger association in youngest cases (OR 1.84–2.20, p=0.0004–0.09); and (b) GENECARD probands versus non-familial controls (OR 1.79–2.06, p=0.003–0.02). A promoter SNP (rs16147) within this 6-SNP block was associated with higher plasma NPY levels (p=0.04). To assess a causal role of NPY in atherosclerosis, we applied the NPY1-receptor–antagonist BIBP-3226 adventitially to endothelium-denuded carotid arteries of apolipoprotein E-deficient mice; treatment reduced atherosclerotic neointimal area by 50% (p=0.03). Thus, NPY variants associate with atherosclerosis in two independent datasets (with strong age-of-onset effects) and show allele-specific expression with NPY levels, while NPY receptor antagonism reduces atherosclerosis in mice. We conclude that NPY contributes to atherosclerosis pathogenesis.     

Genomic characterization of Ralstonia solanacearum phage phiRSA1 and its related prophage (phiRSX) in strain GMI1000

RSA1 is a wide-host-range bacteriophage isolated from Ralstonia solanacearum. In this study, the complete nucleotide sequence of the RSA1 genomic DNA was determined. The genome was 38,760 bp of double-stranded DNA (65.3% G+C) with 19-bp 5′-extruding cohesive ends (cos) and contained 51 open reading frames (ORFs). Two-thirds of the RSA1 genomic region encodes the phage structural modules, and they are very similar to those reported for coliphage P2 and P2-like phages. A RSA1 minireplicon with an 8.2-kbp early-expressing region was constructed. A late-expression promoter sequence motif was predicted for these RSA1 genes as 5′ TGTTGT-(X)₁₃-ACAACA. The genomic sequence similarity between RSA1 and related phages 52237 and CTX was interrupted by three AT islands, one of which contained an insertion sequence element, suggesting that they were recombinational hot spots. RSA1 was found to be integrated into at least three different strains of R. solanacearum, and the chromosomal integration site (attB) was identified as the 3′ portion of the arginine tRNA(CCG) gene. In the light of the RSA1 gene arrangement, one possible prophage sequence previously detected on the chromosome of R. solanacearum strain GMI1000 was characterized as a RSA1-related prophage (designated RSX). RSX was found to be integrated at the serine tRNA (GGA) gene as an att site, and its size was determined to be 40,713 bp. RSX ORFs shared very high amino acid identity with their RSA1 counterparts. The relationships and evolution of these P2-like phages are discussed.     

Growth-sustaining Water Potential Distributions in the Primary Corn Root: A NONCOMPARTMENTED CONTINUUM MODEL

An equation is derived from transport theory to relate local growth rate to local water potential in an expanding tissue. For a noncompartmented continuum model, the relative elemental growth rate (L) equals the divergence of the tensor product of hydraulic conductivity () and the gradient of water potential, ψ, i.e. L = • [ · ψ]. This equation is solved numerically using published values of L and to show the water potential distribution which can sustain the observed growth pattern in the primary root of Zea mays L. The water potential required to sustain growth decreases from the outside to the inside of the root, and the longitudinal profile shows most negative values near the location of the highest growth rate. A cell originally located near the apex experiences a loss and then a gain in water potential as it is displaced through the growth zone.     

NRXN3 Is a Novel Locus for Waist Circumference: A Genome-Wide Association Study from the CHARGE Consortium

Central abdominal fat is a strong risk factor for diabetes and cardiovascular disease. To identify common variants influencing central abdominal fat, we conducted a two-stage genome-wide association analysis for waist circumference (WC). In total, three loci reached genome-wide significance. In stage 1, 31,373 individuals of Caucasian descent from eight cohort studies confirmed the role of FTO and MC4R and identified one novel locus associated with WC in the neurexin 3 gene [NRXN3 (rs10146997, p=6.4×10⁻⁷)]. The association with NRXN3 was confirmed in stage 2 by combining stage 1 results with those from 38,641 participants in the GIANT consortium (p=0.009 in GIANT only, p=5.3×10⁻⁸ for combined analysis, n=70,014). Mean WC increase per copy of the G allele was 0.0498 z-score units (0.65 cm). This SNP was also associated with body mass index (BMI) [p=7.4×10⁻⁶, 0.024 z-score units (0.10 kg/m²) per copy of the G allele] and the risk of obesity (odds ratio 1.13, 95% CI 1.07–1.19; p=3.2×10⁻⁵ per copy of the G allele). The NRXN3 gene has been previously implicated in addiction and reward behavior, lending further evidence that common forms of obesity may be a central nervous system-mediated disorder. Our findings establish that common variants in NRXN3 are associated with WC, BMI, and obesity.     

Chlorine Disinfection of Atypical Mycobacteria Isolated from a Water Distribution System

We studied the resistance of various mycobacteria isolated from a water distribution system to chlorine. Chlorine disinfection efficiency is expressed as the coefficient of lethality (liters per minute per milligram) as follows: Mycobacterium fortuitum (0.02) > M. chelonae (0.03) > M. gordonae (0.09) > M. aurum (0.19). For a C·t value (product of the disinfectant concentration and contact time) of 60 mg·min·liter⁻¹, frequently used in water treatment lines, chlorine disinfection inactivates over 4 log units of M. gordonae and 1.5 log units of M. fortuitum or M. chelonae. C·t values determined under similar conditions show that even the most susceptible species, M. aurum and M. gordonae, are 100 and 330 times more resistant to chlorine than Escherichia coli. We also investigated the effects of different parameters (medium, pH, and temperature) on chlorine disinfection in a chlorine-resistant M. gordonae model. Our experimental results follow the Arrhenius equation, allowing the inactivation rate to be predicted at different temperatures. Our results show that M. gordonae is more resistant to chlorine in low-nutrient media, such as those encountered in water, and that an increase in temperature (from 4°C to 25°C) and a decrease in pH result in better inactivation.     

Specificity of the STAT4 genetic association for severe disease manifestations of systemic lupus erythematosus

Systemic lupus erythematosus (SLE) is a genetically complex disease with heterogeneous clinical manifestations. A polymorphism in the STAT4 gene has recently been established as a risk factor for SLE, but the relationship with specific SLE subphenotypes has not been studied. We studied 137 SNPs in the STAT4 region genotyped in 4 independent SLE case series (total n=1398) and 2560 healthy controls, along with clinical data for the cases. Using conditional testing, we confirmed the most significant STAT4 haplotype for SLE risk. We then studied a SNP marking this haplotype for association with specific SLE subphenotypes, including autoantibody production, nephritis, arthritis, mucocutaneous manifestations, and age at diagnosis. To prevent possible type-I errors from population stratification, we reanalyzed the data using a subset of subjects determined to be most homogeneous based on principal components analysis of genome-wide data. We confirmed that four SNPs in very high LD (r²=0.94 to 0.99) were most strongly associated with SLE, and there was no compelling evidence for additional SLE risk loci in the STAT4 region. SNP rs7574865 marking this haplotype had a minor allele frequency (MAF)=31.1% in SLE cases compared with 22.5% in controls (OR=1.56, p=10⁻¹⁶). This SNP was more strongly associated with SLE characterized by double-stranded DNA autoantibodies (MAF=35.1%, OR=1.86, p<10⁻¹⁹), nephritis (MAF=34.3%, OR=1.80, p<10⁻¹¹), and age at diagnosis<30 years (MAF=33.8%, OR=1.77, p<10⁻¹³). An association with severe nephritis was even more striking (MAF=39.2%, OR=2.35, p<10⁻⁴ in the homogeneous subset of subjects). In contrast, STAT4 was less strongly associated with oral ulcers, a manifestation associated with milder disease. We conclude that this common polymorphism of STAT4 contributes to the phenotypic heterogeneity of SLE, predisposing specifically to more severe disease.     

Isolation and Characterization of Five Erwinia amylovora Bacteriophages and Assessment of Phage Resistance in Strains of Erwinia amylovora

Phages able to infect the fire blight pathogen Erwinia amylovora were isolated from apple, pear, and raspberry tissues and from soil samples collected at sites displaying fire blight symptoms. Among a collection of 50 phage isolates, 5 distinct phages, including relatives of the previously described phages Ea1 and Ea7 and 3 novel phages named Ea100, Ea125, and Ea116C, were identified based on differences in genome size and restriction fragment pattern. Ea1, the phage distributed most widely, had an approximately 46-kb genome which exhibited some restriction site variability between isolates. Phages Ea100, Ea7, and Ea125 each had genomes of approximately 35 kb and could be distinguished by their EcoRI restriction fragment patterns. Ea116C contained an approximately 75-kb genome. Ea1, Ea7, Ea100, Ea125, and Ea116C were able to infect 39, 36, 16, 20, and 40, respectively, of 40 E. amylovora strains isolated from apple orchards in Michigan and 8, 12, 10, 10, and 12, respectively, of 12 E. amylovora strains isolated from raspberry fields (Rubus spp.) in Michigan. Only 22 of 52 strains were sensitive to all five phages, and 23 strains exhibited resistance to more than one phage. Ea116C was more effective than the other phages at lysing E. amylovora strain Ea110 in liquid culture, reducing the final titer of Ea110 by >95% when added at a ratio of 1 PFU per 10 CFU and by 58 to 90% at 1 PFU per 10⁵ CFU.     

The Individual Blood Cell Telomere Attrition Rate Is Telomere Length Dependent

Age-associated telomere shortening is a well documented feature of peripheral blood cells in human population studies, but it is not known to what extent these data can be transferred to the individual level. Telomere length (TL) in two blood samples taken at ~10 years interval from 959 individuals was investigated using real-time PCR. TL was also measured in 13 families from a multigenerational cohort. As expected, we found an age-related decline in TL over time (r=–0.164, P<0.001, n=959). However, approximately one-third of the individuals exhibited a stable or increased TL over a decade. The individual telomere attrition rate was inversely correlated with initial TL at a highly significant level (r=–0.752, P<0.001), indicating that the attrition rate was most pronounced in individuals with long telomeres at baseline. In accordance, the age-associated telomere attrition rate was more prominent in families with members displaying longer telomeres at a young age (r=–0.691, P<0.001). Abnormal blood TL has been reported at diagnosis of various malignancies, but in the present study there was no association between individual telomere attrition rate or prediagnostic TL and later tumor development. The collected data strongly suggest a TL maintenance mechanism acting in vivo, providing protection of short telomeres as previously demonstrated in vitro. Our findings might challenge the hypothesis that individual TL can predict possible life span or later tumor development.     

Lysine-2,3-Aminomutase and β-Lysine Acetyltransferase Genes of Methanogenic Archaea Are Salt Induced and Are Essential for the Biosynthesis of Nɛ-Acetyl-β-Lysine and Growth at High Salinity

The compatible solute N-acetyl-β-lysine is unique to methanogenic archaea and is produced under salt stress only. However, the molecular basis for the salt-dependent regulation of N-acetyl-β-lysine formation is unknown. Genes potentially encoding lysine-2,3-aminomutase (ablA) and β-lysine acetyltransferase (ablB), which are assumed to catalyze N-acetyl-β-lysine formation from α-lysine, were identified on the chromosomes of the methanogenic archaea Methanosarcina mazei Gö1, Methanosarcina acetivorans, Methanosarcina barkeri, Methanococcus jannaschii, and Methanococcus maripaludis. The order of the two genes was identical in the five organisms, and the deduced proteins were very similar, indicating a high degree of conservation of structure and function. Northern blot analysis revealed that the two genes are organized in an operon (termed the abl operon) in M. mazei Gö1. Expression of the abl operon was strictly salt dependent. The abl operon was deleted in the genetically tractable M. maripaludis. Δabl mutants of M. maripaludis no longer produced N-acetyl-β-lysine and were incapable of growth at high salt concentrations, indicating that the abl operon is essential for N-acetyl-β-lysine synthesis. These experiments revealed the first genes involved in the biosynthesis of compatible solutes in methanogens.

     

Characterization of Temperate Bacillus Bacteriophage phi105

Temperate Bacillus phage 105 is serologically unrelated to previously described virulent Bacillus phages. Phage 105 is incapable of generalized transduction. Prophage 105 is inducible with mitomycin C. Phage 105 contains double-stranded deoxyribonucleic acid (DNA) with a molecular weight of about 25 × 10⁷ as determined by band sedimentation and electron microscopy. The per cent guanine plus cytosine of 105 DNA is 43.5 as determined by buoyant density in CsCl and by thermal denaturation. Phage 105 DNA may contain complementary single-stranded ends.     

Cryptochrome, Phytochrome, and the Photoregulation of Anthocyanin Production under Blue Light

The principle of equivalent light action predicts that two light treatments (wavelengths ^λ₁ and λ₂) producing the same Pfr/P ratio (_λ1 = _λ2) and the same rate of phytochrome photoconversion (k_λ1 = k_λ2) are perceived by phytochrome as being the same and should produce the same effect. The results of experiments based on the principle of equivalent light action indicate that cryptochrome is involved in the photoregulation of anthocyanin production elicited by blue light in tomato seedlings. This was also the case for one strain of cabbage seedlings. For another strain of cabbage seedlings, the results suggest that cryptochrome is either not involved or that the state of phytochrome is the principal limiting factor.     

Control of Seed Germination by Abscisic Acid : III. Effect on Embryo Growth Potential (Minimum Turgor Pressure) and Growth Coefficient (Cell Wall Extensibility) in Brassica napus L

The physical mechanism of seed germination and its inhibition by abscisic acid (ABA) in Brassica napus L. was investigated, using volumetric growth (= water uptake) rate (dV/dt), water conductance (L), cell wall extensibility coefficient (m), osmotic pressure (_i), water potential (Ψ_i), turgor pressure (P), and minimum turgor for cell expansion (Y) of the intact embryo as experimental parameters. dV/dt, _i, and Ψ_i were measured directly, while m, P, and Y were derived by calculation. Based on the general equation of hydraulic cell growth [dV/dt = Lm/(L + m) (Δ - Y), where Δ = _i - of the external medium], the terms (Lm/(L + m) and _i - Y were defined as growth coefficient (k_G) and growth potential (GP), respectively. Both k_G and GP were estimated from curves relating dV/dt (steady state) to of osmotic test solutions (polyethylene glycol 6000).

During the imbibition phase (0-12 hours after sowing), k_G remains very small while GP approaches a stable level of about 10 bar. During the subsequent growth phase of the embryo, k_G increases about 10-fold. ABA, added before the onset of the growth phase, prevents the rise of k_G and lowers GP. These effects are rapidly abolished when germination is induced by removal of ABA. Neither L (as judged from the kinetics of osmotic water efflux) nor the amount of extractable solutes are affected by these changes. _i and Ψ_i remain at a high level in the ABA-treated seed but drop upon induction of germination, and this adds up to a large decrease of P, indicating that water uptake of the germinating embryo is controlled by cell wall loosening rather than by changes of _i or L. ABA inhibits water uptake by preventing cell wall loosening. By calculating Y and m from the growth equation, it is further shown that cell wall loosening during germination comprises both a decrease of Y from about 10 to 0 bar and an at least 10-fold increase of m. ABA-mediated embryo dormancy is caused by a reversible inhibition of both of these changes in cell wall stability.