Solid-state spin-1/2 NMR studies of disorder, bonding, and symmetry

Harris, Kristopher J.

Unknown Date

No description available.

NMR

Solids

gold

cyanide

aurophilic

antisymmetric

coupling

Dewar-Chatt-Duncanson

alkene

alkyne

platinum

MAS

shielding

DFT

MO

tensor

Cyanide and central nervous system : a study with focus on brain dopamine

Cassel, Gudrun

January 1993

The brain is a major target site in acute cyanide intoxication, as indicated by several symptoms and signs. Cyanide inhibits the enzyme cytochrome oxidase. This inhibition causes impaired oxygen utilization in all cells affected, severe metabolic acidosis and inhibited production of energy. In this thesis, some neurotoxic effects of cyanide, in particular, the effects on dopaminergic pathways were studied. In a previous study, decreased levels of striatal dopamine and HVA were found after severe cyanide intoxication (5-20 mg/kg i.p.). However, increased striatal dopamine were found in rats showing convulsions after infusion of low doses of cyanide (0.9 mg/kg i.v.), at the optimal dose rate (the dose rate that gives the treshold dose). Increased striatal dopamine synthesis was observed in rats after cyanide treatment and in vitro. Furthermore, in rat, as well as in pig striatal tissue, cyanide dose- dependently increased the oxidative deamination of 5-HT (MAO-A) and DA (MAO-A and -B) but not that of PEA (MAO-B). Thus cyanide affects both the synthesis and metabolism of dopamine. In rats, sodium cyanide (2.0 mg/kg, i.p.) decreased the striatal dopamine Dj- and D2-receptor binding 1 hour after injection. Increased extracellular levels of striatal dopamine and homovanillic acid were also shown after cyanide (2.0 mg/kg; i.p.). DOPAC and 5-HIAA were slightly decreased. This indicates an increased release or an extracellular leakage of dopamine due to neuronal damage caused by cyanide. Thus the effects of cyanide on dopamine Dj- and D2~receptors could in part be due to cyanide-induced release of dopamine. Because of reported changes in intracellular calcium in cyanide-treated animals, the effects of cyanide on inositol phospholipid breakdown was studied. Cyanide seemed not to affect the inositol phospholipid breakdown in vitro. The effects of cyanide on the synthesis and metabolism of brain GAB A were also examined. A decreased activity of both GAD and GAB A-T were found in the rat brain tissue. The reduced activity of GAB A-T, but not that of GAD returned to the control value after adding PLP in the incubation media. The cyanide-produced reduction of GABA levels will increase the susceptibility to convulsions, and could partly be due to GAD inhibition. In conclusion, cyanide affects the central nervous system in a complex manner. Some effects are probably direct. The main part, however, appears to be secondary, e.g. hypoxia, seizures, changes in calcium levels or transmitter release produced by cyanide. / <p>Diss. (sammanfattning) Umeå : Umeå universitet, 1993, härtill 7 uppsatser</p> / digitalisering@umu

CNS

cyanide

dopaminergic system

convulsions

receptor binding

tyrosine hydroxylase

monoamine oxidase

extracellular release

inositol phosphate

GABA

GAD

Solid-state spin-1/2 NMR studies of disorder, bonding, and symmetry

Harris, Kristopher J.

11 1900

This thesis is concerned with applications of modern solid-state NMR spectroscopy. Investigations of three quite different types are undertaken, each of which attempt to advance knowledge in the fields of chemistry and NMR. The goal of each project is to obtain insight into the effects of chemical environment, in particular bonding, on the NMR observables. Carbon-13 and nitrogen-15 solid-state nuclear magnetic resonance has been used to study solid samples containing the dicyanoaurate(I) anion, [Au(CN)2]-, with n-butylammonium, potassium, and thallium counterions. Differences in Au-Tl metallophilic bonding are shown to cause a difference in the isotropic cyanide carbon-13 chemical shift of up to 15.7 ppm, while differences in Au-Au aurophilic bonding are found to be responsible for a change of up to 5.9 ppm. Disordered polymeric gold(I) monocyanide was also investigated, and a range of 7+-2% to 25+-5% of the AuCN chains are found to be "slipped" instead of aligned with the neighbouring chains at the metal position. An investigation of the chemical shift tensors of the 13C-labelled carbons in solid samples of Ph13C≡13CPh and (η2-Ph13C≡13CPh)Pt(PPh3)2·(C6H6) has also been carried out. Coordination of diphenylacetylene to platinum causes a change in the 13C chemical shift tensor orientation and a net increase in the isotropic chemical shift. The carbon chemical shift tensors in the platinum complex bear a striking similarity to those of the alkenyl-carbons in trans-Ph(H)C=C(H)Ph, and a theoretical discussion of these observations is presented. Each of the fundamental NMR interaction tensors (σ, J, D and V) may be decomposed into isotropic, symmetric, and antisymmetric components. Observations of all theoretically allowed components other than the antisymmetric portion of J (Janti) have previously been published. Andrew and Farnell's theory (Mol. Phys. 15, 157 (1968)) for the effects of Janti on NMR spectra has been extended to powdered samples, and methods for analyzing the resultant line shapes have been determined. Finally, the first reported experimental attempts to measure Janti are presented, and experimental proof that no elements of Janti(119Sn,119Sn) in hexa(p-tolyl)ditin are larger than 2900 Hz is given.

NMR

Solids

gold

cyanide

aurophilic

antisymmetric

coupling

Dewar-Chatt-Duncanson

alkene

alkyne

platinum

MAS

shielding

DFT

MO

tensor

Self-lubricating non-cyanide silver-polytetrafluoroethylene composite coating for threaded compression fittings

Sieh, Raymond

January 2017

Silver is a precious metal that has traditionally been used for jewellery and money. It also possesses desirable properties such as being corrosion resistant and having good electrical conductivity, resulting in its use for industrial applications. Furthermore, it is also recognised for its tribological properties in non-cost prohibitive applications. Silver can be used as a surface coating and can be deposited using an electroplating process. The utilisation of silver as a surface coating is advantageous and sustainable, as the substrate material properties are enhanced while usage of silver is kept to a minimum. On the other hand, electroplating has been used for over a century. It is a process which is able to produce a layer of uniform and dense coating that adheres well to the substrate metal, thus modifying the properties of the substrate. It benefits from being relatively low cost and is scalable. Silver is electroplated onto stainless steel threaded compression fittings to prevent galling. Traditional silver electroplating, which contains the use of cyanide as a complexing agent in the electroplating bath, is still in use within industry, even to this day. Cyanide, in its various forms can be poisonous, toxic and even lethal, which presents a risk during the silver electroplating process. Furthermore, the toxic wastes created during the cyanide silver electroplating process are detrimental to the environment. The aim of this work is to develop a self-lubricating non-cyanide silver PTFE composite coating suitable for use in threaded compression fittings of the ferruled type. The composite can be considered self-lubricating when a concentration of 8% or more by volume of the self-lubricating PTFE substance is incorporated. My original contribution to knowledge is firstly the successful development and characterisation of a self-lubricating non-cynanide Ag-PTFE coating on stainless steel without a strike resulting in improved CoF of 0.06 from the CoF of 0.6 based on an unlubricated surface. Secondly is the application of a non-cyanide Ag-PTFE MMC for threaded compression fittings. Thirdly is the characterisation of the make-up process of threaded compression fittings through the proposed use of the torque-angle slope in assessing coating performance for threaded compression fittings during make-up. Conclusions that can be drawn for the work are that the performance non-cyanide Ag-PTFE coating exceeded the performance of the pure Ag coating made using the same non-cyanide process. Moreover, the performance of the Ag-PTFE coating shows promising results when compared to the performance of the commercial silver cyanide coating. As a viable replacement to the current silver cyanide process, the self-lubricating non-cyanide Ag-PTFE coating, will improve the working conditions and have a positive contribution to the environment. Moreover, a thinner coating with has the potential to reduce raw material usage and electroplating waste disposal costs.

671.7

Treatment of a cyanide-free copper electroplating solution by electrodialysis: study of ion transport and evaluation of water and inputs recovery. / Tratamento de uma solução de um banho de eletrodeposição de cobre isento de cianeto por eletrodiálise: estudo do transporte iônico e avaliação da recuperação da água e de insumos.

Tatiana Scarazzato

19 December 2017

The two most common commercial copper baths are the acid sulfate copper bath and the alkaline cyanide copper bath. Alkaline copper baths are mostly used to coat parts with complex geometry and to avoid galvanic deposition when depositing a metal on a less noble substrate. Because of the toxicity of cyanide compounds, alternative baths have been developed using different complexing agents. The starting point of the present study is a cyanide-free strike bath developed for copper plating on Zamak substrates developed by the Institute for Technological Research of the State of São Paulo/ Brazil. The replacement of a raw material such as cyanide must be economically advantageous and technically feasible. Therefore, this study intended to propose an alternative to the treatment of liquid wastes from the mentioned bath, aiming at simultaneous water reclamation and chemicals recovery in a closed system. The electrodialysis membrane separation process was studied, using a laboratoryscale system operating with a synthetic solution simulating the rinsing waters from the HEDP-based bath. The feasibility of the technique was evaluated by analyzing operational parameters such as ion extraction, demineralization rate, concentration rate, current efficiency for each anionic specie and average energy consumption. Because HEDP is a chelating agent, the transport of Cu(II)-HEDP chelates through anion-exchange membranes was also evaluated by means of electrochemical methods. Chronopotentiometric and current-voltage curves were constructed for different model solutions containing the same compounds as the original bath. A relation between the presence of chelates in the solutions and the fixed ion exchange group could be established. Lastly, deposition tests were performed using electrolytes containing the recycled inputs and the characteristics of the coatings were analyzed. The results showed that an electrodialysis stack using strongly basic anion-exchange membranes was suitable to produce treated solutions and a concentrate containing the ions from the bath. The concentrate could be added to the copper bath to compensate eventual drag-out losses without affecting the quality of the coatings. Thus, the application of electrodialysis was shown to be a feasible alternative for recovering water and inputs from the evaluated solution, reducing the wastewater generation and saving natural resources. / Os dois banhos de cobre comerciais mais comuns são o banho ácido à base de sulfato e o banho alcalino à base de cianeto. Os banhos alcalinos são usados principalmente para recobrir peças com geometria complexa e para evitar a deposição por deslocamento galvânico quando se deposita um metal em um substrato menos nobre. Por causa da toxicidade dos compostos cianídricos, banhos alternativos vêm sendo desenvolvidos usando diferentes agentes complexantes. O ponto de partida do presente estudo é um banho toque isento de cianeto para deposição de cobre em substratos de Zamak, desenvolvido pelo Instituto de Pesquisas Tecnológicas / Brasil. A substituição de matérias-primas como o cianeto deve ser economicamente vantajosa e tecnicamente viável. Desta forma, este estudo pretendeu propor uma alternativa para o tratamento de resíduos líquidos do banho mencionado, visando à recuperação simultânea da água e das matérias-primas em um sistema fechado. Foi estudado o processo de separação por membranas de eletrodiálise, usando um sistema em escala laboratorial operando com uma solução sintética que simulava as águas de lavagem do banho à base de HEDP. A viabilidade da técnica foi avaliada por meio da análise de parâmetros operacionais, como a extração dos íons, a taxa de dessalinização, o percentual de concentração, a eficiência de corrente calculada para cada espécie iônica e o consumo médio de energia. Devido ao HEDP ser um agente quelante, o transporte de quelatos Cu(II)-HEDP através de membranas aniônicas foi avaliado por meio de métodos eletroquímicos. Curvas cronopotenciométricas e curvas corrente-potencial foram construídas para diferentes soluções sintéticas que continham os mesmos compostos que o banho original. A relação entre a presença de quelatos nas soluções e os grupos fixos de troca iônica pôde ser estabelecida. Por fim, testes de deposição foram realizados usando eletrólitos contendo os compostos reciclados e as características dos depósitos foram analisadas. Os resultados mostraram que o sistema de eletrodiálise usando membranas aniônicas contendo grupos de troca fortemente básicos pôde produzir soluções tratadas e um concentrado contendo os íons do banho. O concentrado pôde ser adicionado ao banho original para compensar eventuais perdas por arraste sem afetar a qualidade dos depósitos. Assim, a aplicação da eletrodiálise se mostrou uma alternativa viável para a recuperação de água e de insumos da solução avaliada, reduzindo a geração de efluentes e economizando recursos naturais.

Cobre

Efluentes (Tratamento)

Eletrodeposição

Eletrodiálise

Quelato

Copper chelates

Cyanide-free plating bath

Electrodialysis

Inputs recovery

Membrane separation process

Water reclamation

[en] TREATMENT OF EFFLUENTS CONTAINING FREE CYANIDE THROUGH THE SYSTEM H2O2/UV / [pt] TRATAMENTO DE EFLUENTES CONTENDO CIANETO LIVRE ATRAVÉS DO SISTEMA H2O2/UV

ADRIANA CINOPOLI GONCALVES

10 March 2005

[pt] O presente trabalho teve como objetivo estudar o tratamento de efluentes contendo cianeto livre através do sistema H2O2/UV e selecionar as condições operacionais mais adequadas para uma maior eficiência do processo. Para isso, foram empregadas soluções sintéticas de KCN com características de pH e concentração similares às condições de um efluente industrial real. O fotorreator utilizado nos testes de oxidação foi um reator cilíndrico de seção anular, equipado com uma lâmpada de baixa pressão de 28 W concêntrica com emissão em 254 nm, onde a solução ficava diretamente em contato com a mesma. Este fotorreator foi acoplado a um sistema de refrigeração que mantinha a temperatura de operação em 25oC.As variáveis avaliadas foram concentração inicial de cianeto em solução, pH inicial da solução, potência de UV irradiada e razão molar [H2O2]/[CN-]. Para soluções contendo uma concentração inicial de cianeto igual a 100 ppm, foi possível atingir uma eficiência remoção de 99,9 por cento em 25 minutos, em pH igual a 9,5, com uma razão molar [H2O2]:[CN-] igual a 3. Para efluentes contendo uma concentração inicial de cianeto igual a 300 ppm, nas mesmas condições operacionais, alcançou-se a mesma eficiência em 30 minutos. / [en] The present work had the objective of studying the treatment of effluents containing free cyanide through the system H2O2/UV, and of selecting the best operational conditions for best efficiency of the process. For that, it was employed synthetic solutions of KCN with characteristics of pH and concentration similar to those of a real effluent. The photoreactor employed in the oxidation tests was a cylindrical reactor of annular section, equipped with a concentrical low pressure lamp of 28 W with emission in 254 nm, where the solution was in direct contact with the lamp. This photoreactor was coupled with a cooling system which kept the operation temperature at 25oC. The evaluated variables were initial cyanide concentration in solution, initial pH of the solution, power of radiated UV and molar ratio [H2O2]/[CN-]. For solutions containing an initial concentration of cyanide equal to 100 ppm, it was possible to reach a removal efficiency of 99.9 per cent in 25 minutes, in pH equal to 9.5, with a molar ratio of [H2O2]:[CN-] equal to 3. For effluents containing an initial concentration of cyanide equal to 300 ppm, at the same operational conditions, it was possible to achieve the same removal efficiency in 30 minutes.

[pt] PEROXIDO DE HIDROGENIO

[en] HYDROGEN PEROXIDE

[pt] TRATAMENTO DE EFLUENTES

[en] EFFLUENT TREATMENT

[pt] CIANETO LIVRE

[en] FREE CYANIDE

[pt] RADIACAO ULTRAVIOLETA

[en] ULTRAVIOLET RADIATION

Production of [11C]cyanide for the synthesis of indole-3-[1-11C]acetic acid and PET imaging of auxin transport in living plants: Production of [11C]cyanide for the synthesis of indole-3-[1-11C]acetic acid and PET imaging of auxin transport in living plants

Ellison, P. A., Jedele, A. M., Barnhart, T. E., Nickles, R. J., Murali, D., DeJesus, O. T.

January 2015

Introduction Since its development by Al Wolf and colleagues in the 1970s1, [11C]cyanide has been a useful synthon for a wide variety of reactions, most notably those producing [1-11C]-labeled amino acids2. However, despite its position as rote gas-phase product, the catalytic synthesis is difficult to optimize and often only perfunctorily dis-cussed in the radiochemical literature. Recently, [11C]CN– has been used in the synthesis of indole-3-[1-11C]acetic acid ([11C]IAA), the principal phytohormone responsible for a wide variety of growth and development functions in plants3. The University of Wisconsin has expertise in cyclotron production and radiochemistry of 11C and previous experience in the PET imaging of plants4,5. In this abstract, we present work on optimizing [11C]CN– production for the synthesis of [11C]IAA and the PET imaging of auxin transport in living plants. Material and Methods [11C]CH4 was produced by irradiating 270 psi of 90% N2, 10% H2 with 30 µA of 16.1 MeV protons from a GE PETtrace cyclotron. After irradiation, the [11C]CH4 was converted to [11C]CN– by passing through a quartz tube containing 3.0 g of Pt wire and powder between quartz wool frits inside a 800–1000 ˚C Carbolite tube furnace. The constituents and flow rate of the [11C]CH4 carrier gas were varied in an effort to optimize the oven\'s catalytic production of [11C]CN– from CH4 and NH3. The following conditions were investigated: i. Directly flowing irradiated target gas versus trapping, purging and releasing [11C]CH4 from a −178 ˚C HayeSep D column in He through the Pt furnace. ii. Varying the amount of anhydrous NH3 (99.995%) mixed with the [11C]CH4 carrier gas prior to the Pt furnace. Amounts varied from zero to 35 % of gas flow. iii. Varying the purity of the added NH3 gas with the addition of a hydride gas purifier (Entegris model 35KF), reducing O2 and H2O impurities to < 12 ppb. iv. Varying the flow rate of He gas carrying trapped, purged and released [11C]CH4. After flowing through the Pt furnace, the gas stream was bubbled through 300 µL of DMSO containing IAA precursor gramine (1 mg), then passed through a 60×5 cm column containing ascarite to absorb [11C]CO2, followed by a −178˚C Porapak Q column to trap [11C]CH4 and [11C]CO. After bubbling, the DMSO/gramine vial was heated to 140 ˚C to react the gramine with [11C]CN–, forming the intermediate indole-3-[1-11C]acetonitrile ([11C]IAN), which was subsequently purified by solid phase extraction (SPE). The reaction mixture was diluted into 20 mL water and loaded onto a Waters Sep-Pak light C18 cartridge, followed by rinsing with 5 mL of 0.1% HCl : acetonitrile (99 : 1) and 10 mL of the same mixture in ratio 95 : 5, and finally eluted with 0.5 mL of diethyl ether. The ether was subsequently evaporated under argon flow, followed by the hydrolysis of [11C]IAN to [11C]IAA with the addition of 300 µL 1 M NaOH and heating to 140 ˚C for 5 minutes. After hydrolysis, the solution was neutralized with 300 µL 1 M HCl and purified using preparative high-performance liquid chromatography (HPLC) using a Phenomenex Luna C18 (10μ, 250×10mm) column with a mobile phase acetonitrile : 0.1% formic acid in H2O (35 : 65) at flow rate of 3 mL/min. The [11C]IAA peak, eluting at 12 minutes, was collected and rotary evaporated to dryness, then again after the addition of 5 mL acetonitrile, followed by its reconstitution in 50 µL of water. Analytical HPLC was performed on the [11C]IAA before and after this evaporation procedure using a Phenomenex Kinetex C18 (2.6μ, 75× 4.6 mm) column with a linear gradient elution over 20 minutes of 10 : 90–30 : 70 (acetonitrile : 0.1% formic acid) at a 1 mL/min flow rate, eluting at 7.6 minutes. The transport of [11C]IAA was monitored following administration through the severed petiole of rapid cycling Brassica oleracea (rcBo) using a Siemens microPET P4 scanner. Transport was compared following administration to the first true leaf versus the final fully formed leaf in plants with and without exposure to the polar auxin transport inhibitor naphthylphthalamic acid (NPA). Results and Conclusion Optimization of the [11C]CN– gas phase chemistry was performed using two key metrics for measuring conversion yield. First is the fraction of total produced radioactivity that trapped in the DMSO/gramine solution (denoted %DMSO), and second, the fraction of DMSO/gramine-trapped activity that was able to react with gramine to form [11C]IAN (denoted %CN–). Under certain conditions, the former of these metrics experienced significant losses due to unconverted [11C]CH4 or through combustion, forming [11C]CO2 or [11C]CO. The latter metric experienced losses due to production of incomplete oxidation products of the CH4-NH3 reaction, such as methylamine. Total [11C]CH4 to [11C]CN– con-version yields is reported by the product of the two metrics. It was initially hypothesized that the irradiation of a 90% N2, 10% H2 target gas would produce sufficient in-target-hot-atom-produced NH3 to convert [11C]CH4 to [11C]CN– in the Pt furnace. However, conversion yields were found to be low and highly variable, with 13 ± 8 % trapping in DMSO/gramine, 9 ± 9 % of which reacted as CN– (n = 15). While in disagreement with previous reports1, this is likely as a result the batch irradiation conditions resulting ammonia losses in the target chamber and along the tubing walls. Yields and reproducibility were improved when combining the target gas with a stream of anhydrous NH3 gas flow with conversion yields reported in TABLE 1. However, these yields remained undesirably low, potentially as a result of the 10% H2 carrier gas having an adverse effect on the oxidative conversion of [11C]CH4 to [11C]CN–. To remedy this, the irradiated target gas was trapped, purged, released in He and combined with NH3 gas before flowing through the Pt furnace. Initial experiments using 99.995% anhydrous NH3 gas resulted in very poor (< 0.1%) [11C]CN– yields as a result of nearly quantitative combustion forming [11C]CO2. Installation of a hydride gas purifier to reduce O2 and H2O impurities in NH3 improved yields for CH4 in He, but did not significantly affect those from [11C]CH4 in N2/H2 target gas. In disagreement with previous reports2, conversion yields were found to be highly sensitive to overall carrier gas flow rate, with lower flow rates giving the best yields, as shown in TABLE 1. Optimization experiments are continuing. The total decay-corrected yield for the 1 hour synthesis of [11C]IAA in 50 µL of water is 2.3 ± 0.7 %, based on the total produced [11C]CH4 with a specific activity ranging from 1–100 GBq/µmol. The principal radiochemical impurity was determined to be indole-3-carboxylic acid. The SPE procedure isolating the [11C]IAN intermediate product was optimized to minimize this impurity in the final sample. After a rapid distribution of the administered [11C]IAA through the cut petiole and throughout the rcBO plant, upward vascular transport of auxin and downward polar auxin transport was visualized through time-activity curves (TACs) of regions of interest along the shoot. Comparison of these TACS with and without exposure to NPA yields insight into the fundamental physiological process of polar auxin transport in plants. In conclusion, the Pt-catalyzed oxidative conversion of [11C]CH4 and NH3 to [11C]CN– is a challenging process to optimize and highly sensitive to carrier gas composition and flow rate. Optimization for our experimental conditions yielded several results which disagreed with previous reports. [11C]IAA produced using [11C]CN– is well suited for PET imaging of polar auxin transport in living plants.

info:eu-repo/classification/ddc/530

ddc:530

11C-cyanide, PET imaging, living plants

Electrochemical Control for Nanoelectromechanical Device Production

Moghimian, Nima

24 April 2015

Electrochemical synthesis of straight, separable, cylindrical nanowires for use as cantilevered mechanical resonators is the main focus of this dissertation. These types of nanowires are significant for many applications, but particularly so for chip-based sensor arrays made for ultrasensitive mass detection. Directed-assembly of nanowire-based devices has enabled the development of large-area fabrication of sensor devices with new functions such as cancer detection at early stage. Chemically stable noble metals gold and rhodium are interesting materials for making nanowire resonators. Gold makes a well-known, stable and strong bond with the thiol group, which enables a range of surface functionalization chemistries. Rhodium nanowires have desirable mechanical properties for resonant mass sensing as they can retain high quality factor (Q-factor) from high vacuum to near atmospheric pressures. As a versatile and inexpensive tool, electrodeposition provides the most suitable synthesis path for gold and rhodium resonator-grade nanowires in nanoporous templates. In this work, the structural characteristics of nanoporous membranes anodized aluminium oxide and track-etched polycarbonate was explored for use as electrodeposition template. New chemistries for making gold and rhodium nanowires are introduced. Although gold cyanide-based solutions work well for the electrochemical synthesis of separable nanowires, the toxicity of cyanide solutions makes non-cyanide alternatives desirable. However, electrochemical synthesis of gold nanowires in templates from non-cyanide solutions suffers from serious drawbacks. These include growth-arresting pellet formation, poor length control and defects such as inclusions. In this dissertation, the first electrochemical synthesis of straight, cylindrical, separable gold nanowires from a sulfite-based solution is presented. This work demonstrates a scheme that suppresses electroless particle growth in the weakly-complexed gold in solution by proper use of additives. The electrochemical nucleation and growth of rhodium nanowires from a sulphate-based solution is also discussed. The effect of pH on the length uniformity as well as the effect of EDTA and polyethylenimine as additives on the development of the wire nanostructure was studied. This study has shown that the control over hydrogen co-reduction on the electrode surface and its bubble transport rate allowed for tailoring the nanostructure of the grown nanowires. The control over electrochemical nucleation and growth of noble metal films for nanowire clamping has also been investigated in this work for making reliable defect-free clamps for nanoresonator measurements. Silver was introduced as a reliable replacement for gold for nanowire clamping. Resonance measurements of rhodium nanowires clamped with silver, confirmed a reliable and repeatable clamp with very small scatter in the plot of resonance frequency variation with appropriate geometric terms. In addition, we found that the elastic modulus of a set of rhodium nanowires synthesized and measured in this work, was 14% larger than in previous studies. / Graduate / 0794 / 0548 / mascotella@gmail.com

Electrodeposition

Nanowire

Nanoresonator

Gold

Rhodium

Polyethylenimine

NEMS

Bottom-up assembly

Template

Clamp

Nanosensor

Q-factor

Directed assembly

Non-cyanide

Large-area

Microfabrication

Nucleation

Mitochondriální cytochrom c oxidasa: inhibice kyanidem a vliv defektu asemblačního faktoru Surf1 / Mitochondrial cytochrome c oxidase: cyanide inhibition and role of assembly factor Surf1 defect

Nůsková, Hana

January 2010

The activity of mitochondrial cytochrome c oxidase (COX) can be affected by either exogenous or endogenous factors. The most efficient and in the environment abundant compound that inhibits COX is cyanide. The very frequent cause of COX deficiency in humans is represented by a defect in the SURF1 gene. The mechanism of cyanide inhibitory effect on COX as well as the conditions for its recovery are not yet fully explained. Three parameters of COX function, namely the transport of electrons (oxygen consumption), the transport of protons (mitochondrial membrane potential, m) and the enzyme affinity to oxygen (p50 value), were studied with regard to the inhibition by KCN and its reversal by pyruvate. The function of COX was analysed in intact isolated rat liver mitochondria, both within the respiratory chain and as a sole enzyme, using succinate or an artificial electron donor ascorbate + TMPD as a substrate. 250 M KCN completely inhibited both electron- and proton-transporting function of COX, and this inhibition was reversible as proved with washing of mitochondria. The addition of 60 mM pyruvate induced the maximal recovery of both parameters to 60 - 80 % of original values. Using KCN in the low concentration range up to 5 M, a profound, 30-fold decrease of COX affinity to oxygen was observed....

Cianogênese e estado nutricional na seleção de clones de copa de seringueira resistentes ao mal-das-folhas / Cyanogenesis and nutritional status in selection of rubber tree crown clones resistant to South American leaf blight

Moraes, Larissa Alexandra Cardoso

26 February 2010

O mal-das-folhas, principal doença da seringueira, ainda restrita ao continente americano, tem frustrado todas as tentativas de cultivo da seringueira em regiões com distribuição de chuvas durante todo o ano, tais como a Amazônia tropical úmida. A utilização da técnica de enxertia de copa com clones resistentes é uma solução para contornar este problema, porém, o efeito depressivo das copas enxertadas, ocasionado pela perda da estabilidade do látex tem sido um dos principais obstáculos para a adoção dessa técnica. O papel da cianogênese na perda da estabilidade do látex foi sugerido pelos resultados do estudo da incompatibilidade de enxertia de clones de copa sobre o clone de painel IPA 1 em plantas jovens mantidas em jardim clonal. Verificou-se que a incompatibilidade ocorria devido ao transporte de glicosídeos cianogênicos (linamarina e lotaustralina) sintetizados nos folíolos jovens dos clones de copa enxertados, para o caule do IPA 1, cujos sintomas iniciavam com a perda da estabilidade do látex seguido de sua coagulação nos laticíferos. Tais sintomas evoluíram para necrose do floema, além de acúmulo de polifenóis e taninos, aumento do número de esclereídeo, inclusão de tilosóides nos vasos laticíferos e depósito intercelular de lignina amorfa de coloração marrom acinzentada, muito semelhante aos descritos para um dos tipos de secamento do painel, denominado Brown Bast, cuja causa ainda não está esclarecida. O passo inicial da biossíntese dos dois glicosídeos cianogênicos linamarina e lotaustralina é catalisado por citocromos multifuncionais, enzimas que se encontram ligadas à membrana e são denominadas, genericamente, de citocromos P-450. O aumento da atividade dessa enzima foi observado in vivo sob doses de nitrogênio (N), neste caso, acompanhado pelo aumento do conteúdo de glicosídeo cianogênico, e in vitro na presença de manganês (Mn). Essas evidências levaram à elaboração das seguintes hipóteses: i) clones de copa capazes de sintetizar grandes quantidades de glicosídeos cianogênicos (HCNp) podem translocá-los para o painel, elevando a concentração destes na casca do tronco, ii) altas concentrações de HCNp na casca do clone de painel, provenientes de copas enxertadas, reduzem a estabilidade do látex, produzindo o efeito depressivo sobre a produção, podendo evoluir para o secamento do painel de sangria do tipo Brown Bast. iii) a quantidade de glicosídeos cianogênicos produzidos nas folhas é influenciada pelo teor de N e Mn no tecido vegetal. Nesse contexto, o objetivo deste trabalho foi determinar critérios de seleção de clones de copa para a obtenção de combinações copa/painel mais produtivas, com base na avaliação das relações entre a cianogênese, estado nutricional, estabilidade do látex e incidência de secamento do painel de sangria com os seguintes estudos: a) levantamento do potencial cianogênico (HCNp) entre os clones de copa, b) evidências do transporte de glicosídeos cianogênicos da copa para o tronco, como fator de variação do HCNp da casca do painel de sangria, c) relação entre a cianogênese e a estabilidade do látex e o secamento do painel de sangria, d) efeito da adubação com N e Mn na formação de glicosídeos cianogênicos. Verificou-se que o potencial cianogênico (HCNp) apresenta ampla faixa de variação dentro das espécies estudadas como clones de copa, com os valores mais baixos obtidos com os clones de Hevea nítida e os mais altos com os de H. rigidifolia . No entanto, a ocorrência de indivíduos de H. nítida com valores médios de HCNp e H. rigidifolia com valores baixos indicam que essa característica ainda não se encontra bem definida dentro das espécies de Hevea. As copas enxertadas exercem influência sobre o potencial cianogênico (HCNp) da casca do tronco dos clones de painel. No entanto, a ausência de correspondência entre os HCNps das folhas dos clones de copa e o da casca do tronco invalida a utilização do HCNp da copa como critério de seleção destas. Futuras pesquisas são necessárias para identificar o mecanismo do efeito das copas enxertadas sobre o HCNp do painel. A atividade da enzima -glicosidase não foi influenciada pelas combinações copa/painel, estando a capacidade cianogênica (HCNc) diretamente relacionada ao HCNp das cascas das plantas. Os teores foliares de N, Mn e clorofila apresentam correlação com o HCNp das folhas novas e diagnóstico, podendo os mesmos serem utilizados em futuros processos de seleção. Em baixas concentrações de N (0,8% de uréia), o Mn influência a absorção de nitrogênio, potássio, fósforo, cálcio, enxofre, ferro e manganês pelas plantas de seringueira, na fase de viveiro. / The South American leaf blight (SALB), main disease of the rubber tree, which is still restricted to the American continent, has frustrated all the attempts of cultivation of the rubber tree in regions with rainfall distributed throughout the year, such as the humid tropical Amazon. The use of crown grafting with clones resistant to the disease is one possible solution to obviate this problem. However, the depressant effect of the grafted crowns caused by the loss of latex stability is one of the main obstacles to this technique. The role of cyanogenesis in the loss of latex stability was suggested in view of the findings of the study of incompatibility of crown clone grafting and the IPA 1 panel clone in young plants kept in the clonal nursery. This incompatibility occurred due to the transport of cyanogenic glycosides (linamarin and lotaustralin) synthesized in the young follicles of the grafted crown clones to the stem of IPA 1, which first symptoms were the loss of latex stability followed by coagulation within the lactiferous ducts. Such symptoms evolved to phloem necrosis, including the accumulation of polyphenols and tannins, increased number of sclereids, inclusion of tyloses in the lactiferous ducts and intracellular deposit of amorphous lignin of a greyish- brown color very similar to the one described in one of the types of panel dryness called Brown Bast, which cause has not yet been clarified. The first step of biosynthesis of the two cyanogenic glycosides linamarin and lotaustralin is catalyzed by multifunctional cytochromes, enzymes connected with the membrane generically called P-450 cytochromes. The increased activity of the referred enzyme was observed in vivo when nitrogen (N) rates were applied, in this case, followed by increased cyanogenic glycoside content, and in vitro in the presence of manganese (Mn). Such evidence led to the creation of the following hypotheses: i) crown clones capable of synthesizing large amounts of cyanogenic glycosides (HCNp) may transport them to the panel, thus increasing their concentration in the bark of the tree trunk, ii) high concentrations of HCNp in the bark of the panel clone, from the grafted crowns, reduce latex stability, producing a depressant effect on the production that may evolve to panel dryness similar to the Brown Bast disease. iii) the amount of cyanogenic glycosides produced in the leaves is influenced by the N and Mn concentrations in the vegetable tissue. In this context, the present study aimed to determining criteria for the selection of tree crown clones to obtain more productive crown/panel arrangements, based on the assessment of the relationships between cyanogenesis, nutritional status, latex stability and incidence of dryness in the panel, through the following studies: a) assessment of cyanogenic potential (HCNp) of the crown clones, b) evidence of transport of cyanogenic glycosides from the crown to the tree trunk as a determining factor in the variation of HCNp level in the panel bark c) relationship between cyanogenesis and latex stability and the dryness of the panel, d) N and Mn fertilization effects on cyanogenic glycosides formation. The cyanogenic potential (HCNp) was found to have a broad range of variation among the studied species as crown clones, with the lowest values obtained with Hevea nítida clones and the highest values obtained with H. rigidifolia. However, the occurrence of H. nítida individuals with average HCNp values and H. rigidifolia individuals with low values indicate that this characteristic is not well defined within Hevea species. The grafted crowns influence the cyanogenic potential (HCNp) of the bark of the tree trunk of the panel clones. Yet, the lack of correspondence between the HCNps of the trees of the crown clones and that of the bark of the trunk invalidate the use of the crown HCNp as a selection criterion. Further research is necessary to identify the mechanism of the effect of grafted crowns on the panel HCNp. The activity of the -glicosidase enzyme was not influenced by the crown/panel arrangements, with the cyanogenic capacity (HCNc) found to be directly related to the HCNp of the barks of the trees. In rubber tree, regardless the age and species of Hevea, the foliar chlorophyll, N and Mn concentrations have a positive relationship to the HCNp of the young leaves and diagnosis, so they can be used in future selection processes. Under low N contents (0.8% of urea), the Mn influences the nitrogen, potassium, phosphorus, calcium, sulphur, iron and manganese uptake by rubber tree plants at nursery stage.

Cianeto

Cyanide

Fungo fitopatogênico

Hevea spp.

Hevea spp.

Heveicultura

Manganês

Manganese

Nitrogen

Nitrogênio

Nutrição vegetal

Phytopathogenic fungi

Rubber plantation

Vegetable nutrition