Cytogenetic studies in Cochlearia L. (Cruciferae). The chromosomal constitution of C. danica L.

Genome analysis has been used to investigate the relationship of C. danica L. to the diploid and tetraploid species in the genus. The results of this analysis suggest that C. danica has the genomic constitution A¹ ₇ A¹ ₇ A² ₇ A² ₇ T₇ T₇. Both A₇ genomes in C. danica are segmentally differentiated from the A₇ genome in C. groenlandica L. and from the similar A₆ genomes in C. pyrenaica DC. and C. officinalis L. but, in hybrids, are capable of some pairing with these genomes. A² ₇ is more distantly related to A₇ and A₆ than is A¹ ₇ and in A₇ some of the differentiation has taken place by reciprocal translocations. A¹ ₇ and A² ₇ still retain enough homology for pairing between them. The T₇ genome has no homology with any of the A genomes but may be derived from an ancestral T₆ genome.     

Identification of transfer RNA suppressors in Escherichia coli. II. Duplicate genes for tRNA2Gln.

The number of gene copies for tRNA₂^Gln in λpsu⁺2 was determined by genetic and biochemical studies. The transducing phage stimulates the production of the su⁺2 (amber suppressor) and su°2 glutamine tRNAs and methionine tRNA_m. When the su⁺2 amber suppressor was converted to an ochre suppressor by single-base mutation, the phage stimulated ochre-suppressing tRNA₂^Gln, instead of the amber-suppressing tRNA₂^Gln. From the transducing phage carrying the ochre-suppressing allele, strains carrying both ochre and amber suppressors were readily obtainable. These phages stimulated both ochre-suppressing and amber-suppressing tRNA₂^Gln, but not the non-suppressing form. We conclude that the original transducing phage carries two tRNA₂^Gln genes, one su⁺2 and one su°2. The transducing phage carrying two suppressors, ochre and amber, segregates one-gene derivatives that encode only one or the other type of suppressor tRNA. These derivatives apparently arise by unequal recombination involving the two glutamine tRNA genes in the parental phage. This segregation is not accompanied by the loss of the tRNA_m^Met gene. Based on these results, it is suggested that Escherichia coli normally carries in tandem two identical genes specifying tRNA₂^Gln at 15 minutes on the bacterial chromosome. su⁺2 mutants may arise by single-base mutations in the anticodon region of either of these two, leaving the other intact. By double mutations, tRNA₂^Gln genes could also become ochre suppressors. A tRNA_m^Met gene is located near, but not between, these two tRNA₂^Gln genes.     

Fluorescence of proteins in aqueous neutral salt solutions. I. Influence of anions

The effects of anions of neutral salts on the fluorescence emission of six proteins as well as on tryptophan and tyrosine were studied in relation to the structure of proteins. Most anions are good quenchers of tryptophyl and tyrosyl fluorescence, free or in proteins. The results with tryptophan and tyrosine indicate involvement of a collisional quenching mechanism due to agreement with Stern–Volmer law. The deactivation of fluorescence probably occurs because of the transition from singlet state to triplet state. Lehrer's modification of Stern–Volmer law was applied to proteins. The effective quenching constants ([K_Q]eff) and the fraction of fluorescence available ([f_a]eff) to the quencher are also calculated. In contrast to its effect on tryptophan, CH₃COO^? quenches tyrosyl fluorescence and ClO₄^? does not. The effects on fluorescence of ribonuclease and free tyrosine are similar and without any changes in emission maximum. The anions are divided into three groups based on the effect they have on tryptophan-containing proteins. (1) NO₃^?, NO₂^?, Br^?, and I^? have high [K_Q]eff values and readily quench tryptophyl fluorescence of proteins causing a shift of emission maximum to a shorter wavelength. This change is due to the specific quenching of “exposed” tryptophan residues which are accessible to quenchers and the observed residual fluorescence is from the “buried” tryptophyls. (2) ClO₄^? and SCN^? also quench fluorescence of tryptophan in proteins and have lower ([K_Q]eff) values. In their presence the fluorescence maximum is shifted to a longer wavelength, which indicates the unfolding of a protein with [(f_a)eff] = 1. (3) Cl^?, CH₃COO^?, and SO₄? do not have a direct effect on the fluorescence of tryptophan. Besides the “direct” effects, “indirect” effects on fluorophors in protein are also seen, pointing out that the neutral salts can interact in more than one manner with proteins. The effectiveness of anions in quenching fluorescence of proteins follows similar sequences which almost resemble the Hofmeister series, viz., SO₄⁼, CH₃COO^? ? Cl^? < ClO₄^? < SCN^? < Br^? < I^? < NO₃^? < NO₂^?.     

Metal cluster topology. 4. Rhodium carbonyl clusters having fused polyhedra

Previously discussed topological models of metal cluster bonding are now extended to the treatment of anionic rhodium carbonyl clusters having structures consisting of fused polyhedra. Examples of such rhodium carbonyl clusters built from fused octahedra include the ‘biphenyl analogue’ [Rh₁₂(CO)₃₀]⁻², the ‘face-sharing naphthalene analogue’ [Rh₉- (CO)₁₉]³⁻, and the ‘perinaphthene analogue’, [Rh₁₁- (CO)₂₃]³⁻. More complicated anionic rhodium carbonyl clusters treated in this paper include the [Rh₁₃(CO)₂₄H_5−q]^q− anions (q = 2, 3, 4) having an Rh₁₃ centered cuboctahedron, the [Rh₁₄(CO)₂₅- H_4−q]^q− (q = 3,4) and [Rh₁₄(CO)₂₆]²⁻ anions based on a centered pentacapped cube, the [Rh₁₅- (CO)₃₀]³⁻ anion having an Rh₁₅ centered 14-vertex deltahedron, the [Rh₁₅(CO)₂₇]³⁻ anion having a tricapped centered 11-vertex polyhedron, the [Rh₁₇- (CO)₃₀]³⁻ anion having a tetracapped centered cuboctahedron, and the [Rh₂₂(CO)₃₇]⁴⁻ anion having a hexacapped centered cuboctahedron fused to an octahedron so that the octahedron and the cuboctahedron share a triangular face. Analyses of the bonding topologies in [Rh₉(CO)₁₉]³⁻, [Rh₁₇- (CO)₃₀]³⁻, and [Rh₂₂(CO)₃₇]⁴⁻ indicate that a polyhedral network containing several fused globally delocalized polyhedral chambers will not necessarily have a multicenter core bond in the center of each such polyhedral chamber. This observation is of potential importance in extending topological models of metal cluster bonding to bulk metals.     

Identification of transfer RNA suppressors in Escherichia coli. I. Amber suppressor su+2, an anticodon mutant of tRNA2Gln.

In order to isolate the gene for amber suppressor su⁺2 (SupE) in Escherichia coli, a non-defective su⁺2-transducing phage lambda was isolated in three steps: first, deletion derivatives of F′su⁺2 gal (λ) were selected, linking su⁺2 to the right-hand prophage attachment site, att^λPB′; second, these F′-factors were relysogenized by λ and defective transducing phages, λdsu⁺2, were produced by induction; and third, non-defective λpsu⁺2 transducing phages were produced by recombination of λdsu⁺2 isolates with λ. Upon infection by λpsu⁺2, the production of transferRNAs accepting glutamine and methionine was markedly stimulated. Fingerprint analysis of these tRNAs revealed that they consisted of normal tRNA₂^Gln, mutant tRNA₂^Gln and tRNA_m^Met. The mutant tRNA₂^Gln carried a singlebase alteration from G to A at the 3′-end of the anticodon. The production of tRNA₁^Gln was not stimulated by the infection of λpsu⁺2. We conclude that the wild-type allele of su⁺2 (SupE) is the structural gene for tRNA₂^Gln, and the su⁺2 amber suppressor was derived by a single base mutation, changing the anticodon from CUG to CUA, in one of the multi-copy genes for tRNA₂^Gln. The fact that λpsu⁺2 also induces the production of tRNA_m^Met suggests that this tRNA is encoded in the same chromosomal region of E. coli as is tRNA₂^Gln.     

A dynamic whole-plant model of integrated metabolism of nitrogen and carbon. 1. Comparative ecological implications of ammonium-nitrate interactions

The dynamics of ammonium (NH₄ ⁺) and nitrate (NO₃ ^-) concentrations in the soil solution is an important determinant of the species composition of natural vegetation. A mathematical model of uptake, assimilation and translocation of NH₄ ⁺ and NO₃ ^- is presented to assess the performance of species with respect to NO₃ ^-/NH₄ ⁺ feeding characterised by physiologically defined parameters. Nitrate efflux is explicitly considered. The capacities of NO₃ ^-, [U _NM], and NH₄ ⁺ influx, [U _AM], and NO₃ ^- reduction, [A _NM], appear sufficient to characterise whole-plant N metabolism including NO₃ ^- translocation. The parameter space made up by these parameters is represented by 276 parameter combinations (`species'). Simulated total net N uptake rate and C costs for uptake and assimilation per mole total net N taken up are used to decide on how a species profits or suffers from NO<sub>3</sub> <sup>-</sup>+NH<sub>4</sub> <sup>+</sup> mixtures relative to pure N forms with similar total N concentration for external concentrations up to 1.6 mM. Five response categories were identified and contrasted with categories defined by Bogner (1968) on the basis of experimental results on forest plants. The largest category comprises species that respond positively to NO<sub>3</sub> <sup>-</sup> and positively or indifferently to NH<sub>4</sub> <sup>+</sup>. These species have intermediate to high [U <sub>NM</sub>] and [A <sub>NM</sub>] and variable [U <sub>AM</sub>] and correspond to woodland edge species and forest plants on rich soil including typical `nitrophilic' species. This category fades into a group of species that respond positively to NO₃ ^- and negatively to NH₄ ⁺. These species have high [U _NM] and low [U _AM] and [A _NM]; several species from oak-hornbeam woodland (Carpinion) belong to this group. Many parameter combinations were found that responded positively to NH₄ ⁺ and indifferently to NO₃ ^-: low to medium [U _NM], medium to high [U _AM] and variable [A _NM]. This category includes all heathland species. No species were found which responded negatively to NO₃ ^-. The physiological background of differences between the categories is explained with respect to the equilibrium NO₃ ^- concentration in roots, influx, efflux, translocation and assimilation of NO₃ ^- and uptake and assimilation of NH₄ ⁺. The relationship between NO₃ ^- accumulation capacity and morphology is discussed. Some slow-growing species with high [U _NM] and low [A _NM] use NO₃ ^- mainly as an osmotic solute. Respiratory costs in roots of inherently slow-growing species are discussed with respect to patterns in NH₄ ⁺ and NO₃ ^- availabilities of their habitat. This revised version was published online in June 2006 with corrections to the Cover Date.     

Fluctuations of an alpha-helix.

Fluctuations in backbone dihedral angles in the α-helical conformation of homopolypeptides are studied based on an assumption that the conformational energy function of a polypeptide consisting of n amino-acid residues can be approximated by a 2n-dimensional parabola around the minimum point in the range of fluctuations. A formula is derived that relates 〈Δθ_iΔθ_j〉, the mean value of the product of deviations of dihedral angles ?_i and ψ_i (collectively designated by θ_i) from their energy minimum values, with a matrix inverse to the second derivative matrix F ,_n of the conformational energy function at the minimum point. A method of calculating the inverse matrix F _n^?1 explicitly is given. The method is applied to calculating 〈Δθ_iΔθ_j〉 for the α-helices of poly(L -alanine) and polyglycine. The autocorrelations 〈(Δ?_i)²〉 and 〈(Δψ_i)²〉 at 300°K are found to be about 66 deg² and 49 deg², respectively, for poly(L -alanine), and 84 deg² and 116 deg², respectively, for polyglycine. The length of correlations of fluctuations along the chain is found for both polypeptides to be about eight residues long.     

Studies of Elodea nuttallii grown under photorespiratory conditions. I. Photosynthetic characteristics

Abstract. The photosynthetic characteristics of Elodea nuttallii grown in wastewater in continuous flow reactors in a greenhouse were investigated. The diurnal changes in dissolved inorganic carbon (DIC), dissolved oxygen (DO) and pH were monitored. Photosynthesis removed both CO₂(aq) and HCO₃^? from the reactors. A stoichiometry of 1.19:1 was observed between HCO₃^? removal during photosynthesis and OH^? production during photosynthesis, consistent with theories regarding direct bicarbonate utilization. In laboratory experiments, the light compensation points (г_PPFD) were similar (31–35μmol m^?2 s^?1) to reported values for other macrophytes; however, the light saturation level was high (1100μmol m^?2 s^?1) and similar to values reported for aerial portions Of heterophyllous macrophytes. The kinetics of photosynthetic oxygen evolution (K_m (CO₂) = 96mmol m^?3; V_max= 133mmol g^?1 Chl h^?1) and the CO₂ compensation point (г= 44cm³ m^?3) suggested an adaptive, low photorespiratory state in response to low carbon concentrations. Photosynthetic V_max values were slightly, but significantly higher (P 0.001) at pH 8.0 compared to pH 4.5. While CO₂ utilization at pH 8 could account for most of the observed phototsynthetic rates, an HCO₃^? component was present, suggesting two separate transport systems for HCO₃^? and CO₂(aq) in E. nuttallii. The activity of RUBISCO (160.3 mmol g^?1 Chl h^?1 was one of the highest reported values for aquatic macrophytes. Compared to RUBISCO, we observed lower activities of the β-carboxylating enzymes phopho enolpyruvate carboyxlase (PEPcase), 24.1 mmol g^?1 Chl h^?1; phosphor enol pyruvate carboxykinase (PEPCKase), 14 mmol g^?1 Chl h^?1. This suggests that the potential light-independent fixation of carbon in E. nuttallii was much less than RUBISCO-dependent fixation. The RUBISCO/PEPcase ratio was 6.6, indicating that E. nuttallii was similar to Myriophyllum sp. in possessing a physiological adaptation to low CO₂ levels which is hypothesized to include carbonic anhydrase (CA) and an active transport system for HCO₃^?. CA levels were surprisingly low in E. nuttallii (14.2 EUmg Chl^?).     

N.m.r. studies of the structures and bonding of some cobalt(II) and nickel(II) complexes of carboxylic acids

Some octahedral complexes of types ML₄T₂ and ML₂T₂, where M = Co^II, Ni^II, L = γ-picoline and T = C₂F₅CO₂, C₃F₇CO₂ and CHCl₂CO₂, have been studied by ¹H and ¹⁹F n.m.r. spectroscopy. The complexes exist in solution in both cis and trans isomeric forms, interconversion of the two forms being slow at ambient temperature in the case of the Ni^II complexes. The appreciable isomeric distinction shown in the ¹⁹F spectra of the acid ligands in contrast to the ¹H spectra of the γ-picoline ligands is attributed to a sizeable π-contact interaction of the acid ligands, particularly when they act as bidentate ligands.     

Heterologous mischarging as a means of tRNA fractionation. I. Behaviour of E. coli phenylalanyl-tRNA(1Val) on BD-cellulose

The chromatographic behaviour of E.coli tRNA^Val₁, Val-tRNA^Val₁ and Phe-tRNA^Val₁ was studied on BD-cellulose columns. At pH 4.0 and 4°C the elution position of Phe-tRNA^Val₁ was not affected by the presence of absence of Mg²⁺, whereas Val-tRNA^Val₁ was slightly retarded when Mg²⁺ was ommited. It is postulated that the amino acid and its nature influence the structure that the aminoacyl-tRNA assumes. Under suitable conditions the heteroaminoacylated Phe-tRNA^Val₁ eluted significantly later than other tRNAs. This fact showed that heterologous mischarging can be a useful step in tRNA purification methods.     

Bacteriophage T4 transfer RNA. I. Isolation and characterization of two-phage-coded nonsense suppressors

Two phage-coded nonsense suppressors, psuf_a⁺ and psu_b⁺, have been isolated and characterized. Both were isolated as pseudo-wild type revertants of phage strains which carry multiple amber mutations. psu_a⁺ is an amber suppressor which occurs at a frequency of 10⁻¹¹ to 10⁻¹² and is indistinguishable from wild type phage in its growth on both B and K strains of Escherichia coli bacteria. psu_b⁺ may be either an amber or an ochre suppressor, which occurs at a frequency of 10⁻⁷ to 10⁻¹⁰ and makes small plaques on B strains, but grows very poorly or not at all on K strains. Phage with the characteristics of psu_a⁺ occur in populations of psu_b⁺ phage at a frequency of 10⁻⁴. Both suppressors insert serine in response to the amber codon at an efficiency of about 45%.     

Gene controlled selection of mitochondria in Paramecium.

Summary The slow growing mutant cl₁ of Paramecium, previously described (Sainsard, Claisse and Balmefrezol, 1974) differs from wild-type by a single recessive nuclear mutation and by a particular mitochondrial phenotype (M^cl) that gene cl ₁ distinguishes from the wild-type mitochondrial phenotype (M⁺). A further analysis of these nucleo-mitochondrial interactions was carried out by confronting the genes cl ₁ and cl ₁ ⁺ with mixed populations of M⁺ and M^cl mitochondria obtained after cytoplasmic exchange at conjugation. The following results were obtained: 1. M⁺ and M^cl mitochondria introduced respectively into mutant and wild-type cells do not multiply easily; 2. when a mixed population (M⁺+M^cl) is established, both mitochondrial types are maintained during the growth of the F₁ heterozygous cl ₁/cl ₁ ⁺ clones; 3. when the nuclear segregation occurs in F₂, the formation of homozygotes cl ₁/cl ₁ or cl ₁ ⁺ /cl ₁ ⁺ is soon followed by the segregation of the two mitochondrial types, M^cl or M⁺, reconstituting the two parental nucleo-mitochondrial associations.This paper is dedicated to Professor T.M. Sonneborn on the occasion of his 70th birthday     

Streptomyces muensis sp. nov.

A strain of Streptomyces, MBRL 179^T, isolated from a sample from a Limestone quarry located at Hundung, Manipur, India, was characterized by polyphasic taxonomy. The strain formed a monophyletic clade with Streptomyces spinoverrucosus NBRC 14228^T (16S rRNA gene sequence similarity of 99.3 %) in the Neighbour-joining tree. DNA–DNA hybridization experiment gave a DNA–DNA relatedness value of 34.7 % between MBRL 179^T and S. spinoverrucosus NBRC 14228^T. Strain MBRL 179^T contained LL-diaminopimelic acid, xylose, glucose, and mannose in the whole cell-wall hydrolysates along with small amount of ribose. The major polar lipids detected were diphosphatidylglycerol, phosphatidylethanolamine, phosphatidylglycerol, phosphatidylinositol and phosphatidylinositolmannoside, with other unknown phospholipids and aminophospholipid. MK-9(H₆), MK-9(H₈) and MK-9(H₄) were the predominant menaquinones detected. The major fatty acids were anteiso-C_16:0 (28.1 %), iso-C_16:0 (20.3 %), C_16:0 (9.4 %) and anteiso-C_17:0 (8.3 %). The G+C content of the genomic DNA was 71.1 %. Based on the polyphasic experiment results, the strain MBRL 179^T merits recognition as a representative of a novel species of the genus Streptomyces for which the name Streptomyces muensis sp. nov. is proposed; the type strain is MBRL 179^T (=JCM 17576^T = KCTC 29124^T).     

Optimization of ammonium acquisition and metabolism by potassium in rice (Oryza sativa L. cv. IR-72)

We present the first characterization of K⁺ optimization of N uptake and metabolism in an NH₄⁺‐tolerant species, tropical lowland rice (cv. IR‐72). ¹³N radiotracing showed that increased K⁺ supply reduces futile NH₄⁺ cycling at the plasma membrane, diminishing the excessive rates of both unidirectional influx and efflux. Pharmacological testing showed that low‐affinity NH₄⁺ influx may be mediated by both K⁺ and non‐selective cation channels. Suppression of NH₄⁺ influx by K⁺ occurred within minutes of increasing K⁺ supply. Increased K⁺ reduced free [NH₄⁺] in roots and shoots by 50–75%. Plant biomass was maximized on 10 mm NH₄⁺ and 5 mm K⁺, with growth 160% higher than 10 mm NO₃^‐‐grown plants, and 220% higher than plants grown at 10 mm NH₄⁺ and 0.1 mm K⁺. Unlike in NH₄⁺‐sensitive barley, growth optimization was not attributed to a reduced energy cost of futile NH₄⁺ cycling at the plasma membrane. Activities of the key enzymes glutamine synthetase and phosphoenolpyruvate carboxylase (PEPC) were strongly stimulated by elevated K⁺, mirroring plant growth and protein content. Improved plant performance through optimization of K⁺ and NH₄⁺ is likely to be of substantial agronomic significance in the world's foremost crop species.     

Dinuclear complexes with a μ-cyano ligand. Part X. Synthesis and characterization of several derivatives of cis-diaquaamminecobalt(III) complexes. Influence of pH

Six new dinuclear complexes, derived from cis-[Co(H₂O)₂(NH₃)₄]³⁺, cis-[Co(H₂O)₂(en)₂]³⁺ and [M(CN)₄^2? (M = Ni, Pd, Pt) were prepared and characterized by means of chemical analysis, electronic and IR measurements. The influence of the pH on the rate of the reaction was studied for the two derivatives of [Pd(CN)₄]^2?, showing that the best conditions to obtain the dinuclear compounds are at pH near 6, where the predominant species are cis-[Co(OH)(H₂O)(amine)₂]²⁺. The [Pt(CN)₄]^2? derivatives show PtPt interactions both in the solid state and in solution.     

Reduction of pentaamminenitrocobalt(III) by hexaaquachromium(II) ion. Reinvestigation of the mechanism

Products of the reduction of [CoNO₂(NH₃)₅]²⁺ by Cr²⁺ were separated and identified under the conditions of [Cr²⁺]₀/[Co(IlI)]₀⩽3 and 0.02 M ⩽[H⁺] ⩽ 0.75 M. The product distribution was dependent on both [Cr²⁺]_o and [H⁺]. The following mechanism is proposed: [CoNO₂(NH₃)₅]²⁺ + Cr²⁺→Co²⁺ + [CrONO(H₂O)₅]²⁺ (i) [CrONO(H₂O)₅]²⁺ + H⁺→[Cr(H₂O)₆]³⁺ + HNO₂ (ii) [CrONO(H₂O)₅]²⁺ + Cr²⁺→Cr(IV) + [CrNO(H₂O)₅]²⁺ (iii) Cr(IV) + Cr²⁺→[(H₂O)₄Cr(OH)₂Cr(H₂O)₄]⁴⁺ (iv) HNO₂ + 2Cr²⁺→[Cr(H₂O)₆]³⁺ + [CrNO(H₂O)₅]²⁺ (v)     

Equilibria in N-heterocyclic complexes. Part 45. Ligand electron densities in coordinated pyridine

Results of INDO calculations on the species pyridine (py), (pyH)⁺, [py-CH₃]⁺, [Fe(NH₃)_x(py)_6−x]²⁺, [Fe(NH₃)₅(py)]³⁺, [Fe(CN)₅(py)]³⁻, and [Co(CN)₅(py)]²⁻ are presented and discussed, comparing quaternization and coordination.     

Alterations of the manifestations of hybrid breakdown in Lycopersicon esculentum L. pennellii F2 populations containing L. esculentum versus L. pennellii cytoplasm

Reproductive abnormalities reduced the percent stainable pollen, and fruit and seed set in interspecific F₂ populations derived from crosses of Lycopersicon esculentum and L. pennellii but were not observed in parental lines and interspecific F₁ populations. The degree to which these reproductive abnormalities were expressed in the interspecific F₂ populations was affected by cytoplasm. Reproduction was impeded in interspecific F₂ populations containing L. esculentum cytoplasm (F ₂ ^Le ) by reduction in pollen production, the lack of fruit set and a high proportion of parthenocarpic fruit among plants capable of fruit set. The F₂ populations containing L. pennellii cytoplasm (F ₂ ^Lp4 ) showed a reduced frequency of reproductive abnormalities at all stages of reproductive development, resulting in higher values for percent stainable pollen, fruit and seed set and higher proportions of the F ₂ ^Lp4 populations being capable of setting fruit or seed than F ₂ ^Le populations. The major barrier remaining in F ₂ ^Lp4 populations was reduced fruit set compared to parental lines. The barrier to fruit and seed set observed in the F ₂ ^Le populations, and to a lesser extent in the F ₂ ^Lp4 populations, occurs around the time of fertilization or early embryonic development. The effect of L. pennellii cytoplasm on barriers in the F ₂ ^Lp4 populations is proposed to be due to an interaction between cytoplasmic and nuclear genes during fertilization of the F₁ plants to produce F₂ populations and may also affect subsequent generations.     

Metal cluster topology. 1. Osmium carbonyl clusters

Important theoretical approaches to metal cluster bonding including the Wade-Mingos skeletal electron pair method, the Teo topological electron count, the King-Rouvray graph theory derived method, and Lauher's extended Hückel calculations are shown to agree in their apparent skeletal electron counts for the most prevalent metal cluster polyhedra including the tetrahedron, the trigonal bipyramid (both ordinary and elongated), square pyramid, octahedron, bicapped tetrahedron, pentagonal bipyramid, and capped octahedron. The graph theory derived method is used to treat osmium carbonyl clusters containing from five to eleven osmium atoms. In this connection most osmium carbonyl clusters can be classified into the following types: (1) Clusters exhibiting edge- localized bonding containing multiple tetrahedral chambers (e.g., Os₅(CO)₁₆, Os₆(CO)₁₈, H₂Os₇(CO)₂₀ and HOs₈(CO)₂₂⁻); (2) Capped octahedral clusters derived from osmium carbonyl fragments of the type Os_6+p(CO)_19+2p (p = 0, 1, 2, and 4) (e.g., Os₆- (CO)₁₈²⁻, Os₇(CO)₂₁, Os₈(CO)₂₂²⁻, and H₄Os₁₀- (CO)₂₄²⁻). Other more unusual osmium carbonyl clusters such as the planar Os₆(CO)₁₇ [P(OCH₃)₃]₄, the Os₉ cluster [Os₉(CO)₂₁C₃H₂R]⁻, and the Os₁₁ cluster Os₁₁C(CO)₂₇²⁻ can also be treated satisfactorily by these methods. The importance of the number of ligands around isoelectronic Os_n systems in determining the cluster polyhedron is illustrated by the different cluster polyhedra found for each member of the following isoelectronic pairs: HOs₆- (CO)₁₈⁻/H₂Os₆(CO)₁₈. Os₇(CO)₂₁/H₂Os₇(CO)₂₀, Os₈(CO)₂₂²⁻/HOs₈(CO)₂₂⁻. The tendency for osmium carbonyl clusters frequently to form polyhedra exhibiting edge-localized rather than globally delocalized bonding relates to the facility for osmium carbonyl vertices to contribute more than three internal orbitals to the cluster bonding. In this way Wade's well-known analogy between boron hydride clusters and metal clusters, which assumes exactly three internal orbitals for each vertex atom, is frequently no longer followed in the case of osmium carbonyl clusters.     

The nitrogen balance of Raphanus sativus X raphanistrum plants. I. Daily nitrogen use under high nitrate supply

Abstract Growth-chamber cultivated Raphanus plants accumulate nitrate during their vegetative growth. After 25 days of growth at a constant supply to the roots of 1 mol m^?3 (NO^?₃) in a balanced nutrient solution, the oldest leaves (eight-leaf stage) accumulated 2.5% NO^?₃-nitrogen (NO₃-N) in their lamina, and almost 5% NO₃-N in their petioles on a dry weight basis. This is equivalent to approximately 190 and 400 mol^?3 m^?3 concentration of NO^?₃ in the lamina and the petiole, respectively, as calculated on a total tissue water content basis. Measurements were made of root NO^?₃ uptake, NO^?₃ fluxes in the xylem, nitrate uptake by the mesophyll cells, and nitrate reduction as measured by an in vivo test. NO^?₃ uptake by roots and mesophyll cells was greater in the light than in the dark. The NO^?₃ concentration in the xylem fluid was constant with leaf age, but showed a distinct daily variation as a result of the independent fluxes of root uptake, transpiration and mesophyll uptake. NO^?₃ was reduced in the leaf at a higher rate in the light than in the dark. The reduction was inhibited at the high concentrations calculated to exist in the mesophyll vacuoles, but reduction continued at a low rate, even when there was no supply from the incubation medium. Sixty-four per cent of the NO^?₃ influx was turned into organic nitrogen, with the remaining NO^?₃ accumulating in both the light and the dark.