Examining the Roles of PsToc75 POTRA Domains in Chloroplast Protein Import

Simmerman, Richard Franklin

01 August 2011

During chloroplast formation via endosymbiosis most of the plastid genome was transferred to the host nuclear genome. Genomic and proteomic analysis suggests that >95% of the original plastid proteome is now encoded in the nucleus, and these now cytosolically fabricated proteins require a post-translational transport pathway back into the organelle. This process is not well understood, yet it has been shown to involve translocons at the outer and inner envelope of the chloroplast membranes (TOC & TIC). These translocons interact with a cleavable N-terminal extension of between 20 and 100 residues on chloroplast-bound precursor proteins known as the transit-peptide. Precursor proteins pass through the outer membrane via the outer chloroplast membrane beta-barrel, Toc75. In addition to containing a transmembrane β-barrel, Toc75 also contains three polypeptide transport (POTRA) domain repeats at the N-terminus. Despite widespread occurrence the role of POTRAs is poorly understood. One possibility is that they function to promote either homo- or heterotypic protein:protein interactions. To investigate these possibilities, we modeled the psToc75 POTRA domains and purified recombinant POTRA domains. POTRA1, POTRA3, and POTRA1-3 have been used to investigate interactions. Homotypic POTRA interactions have been supported by crosslinking experiments and analytical ultra centrifugation (AUC). Crosslinking data shows POTRA1 and POTRA3 undergo oligimerization. AUC suggests that POTRA1 may homodimerize. Heterotypic interactions have been studied via pull-down assays, crosslinking, and AUC and demonstrate that POTRA1 and POTRA3 interact with transit peptide. Soluble POTRA1-3 seems to stimulate precursor protein import into isolated chloroplasts in an import assay. The role of POTRAs in guiding TOC assembly by homodimerization is being investigated, and experiments to establish how POTRAs aggregate are underway.

POTRA Domains

Toc75

Chloroplast Protein Import

Biochemistry

Molecular Biology

Structural Biology

Gender Differences in Overt Behavior and Mediators of Depression Severity

Ryba, Marlena Maria

01 August 2011

For several decades, evolutionary and social learning theories have been explanatory frameworks to explicate gender differences in overt behaviors and the prevalence, etiology, and maintenance of mental health problems. To further explore relations among gender, overt behaviors, and depression severity, this study used a daily diary methodology to examine gender differences within thirteen behavioral domains and whether differntial frequency of overt behaviors and environmental reward mediated the relationship between gender and depression severity. Overall, females engaged in a significantly greater breadth of behavioral domains and reported a higher level of environmental reward. Females reported spending more time in the domains of health/hygiene, spiritual activities, and eating with others. In contrast, males spent a greater duration of time in the domains of physical activity, sexual activity, and hobbies and recreational experiences. In relation to males, females found social activities, passive/sedentary behaviors, eating with others, and engagement in “other” activities to be more rewarding. Gender had a significant direct effect on depression severity, with females reporting increased depression. This effect was attenuated by the mediator (total environmental reward) such that to the extent that females exhibited increased environmental reward, the gender effect on depression was reduced. These data support behavioral models of depression and have clinical relevance as highlighted in the context of behavioral activation interventions for depression.

Gender differences

behavioral domains

depression

daily diary monitoring

overt behaviors

Clinical Psychology

Investigations of amino acid-based surfactants at liquid interfaces

Yang, Dengliang

01 November 2005

Herein are presented collective studies of amino acid-based surfactants, also known as lipoamino acids, at liquid interfaces. Chapter III describes an investigation of domain morphology of N-Stearoylglutamic acid (N-SGA) Langmuir monolayers at the air/water interface by epifluorescence microscopy. Anisotropic feather-like domains were observed in L-enantiomeric monolayers while symmetric circular domains were found in racemic N-SGA monolayers. At a surface pressure of 30 mN/m the enantiomeric domains melted at 31 ??C while the racemic domains melted at 27 ??C. This result is exactly opposite to the behavior found in bulk crystals where the racemate melts at a higher temperature. These results were explained in terms of different molecular packing and hydrogen bonding between bulk crystals and two-dimensional thin films for enantiomeric and racemic compounds. Chapter IV summarizes the investigations of hydrogen bonding in N-acyl amino acid monolayers by vibrational sum-frequency spectroscopy (VSFS). The intermolecular hydrogen bonding interaction between the adjacent molecules through amide-amide groups in N-stearoylalanine (N-SA) is characterized by an NH stretch peak at 3311 cm-1. This is the first time that the amide NH stretching signals have been detected with the VSFS technique. A similar peak was detected at 3341 cm-1on N-SGA monolayer. The higher frequency indicates that the H-bond strength is weaker due to the larger size of the glutamic acid residue. The NH stretch mode can thus be used as a fingerprint of hydrogen bonding among amide-amide groups. A peak at 3050 cm-1 due to hydrogen bonding among carboxyl groups was also resolved from the VSFS spectra. Molecular models of intermolecular hydrogen bonding were proposed.

Langmuir monolayers

domains

liquid interfaces

nonlinear optics

Boundary value problems in weighted edge spaces

Harutyunyan, G., Schulze, Bert-Wolfgang

January 2006

We study elliptic boundary value problems in a wedge with additional edge conditions of trace and potential type. We compute the (difference of the) number of such conditions in terms of the Fredholm index of the principal edge symbol. The task will be reduced to the case of special opening angles, together with a homotopy argument.

Elliptic operators in domains with edges

boundary value problems

weighted edge spaces

Mathematics

High-throughput evaluation of protein folding conditions and expression constructs for structural genomics / High-throughput evaluation of protein folding conditions and expression constructs for structural genomics

Scheich, Christoph

January 2004

Das E. coli Expressionssystem ist das am häufigsten angewandte hinsichtlich der rekombinante Proteinexpression für strukturelle und funktionelle Analysen aufgrund der hohen erzielten Ausbeuten und der einfachen Handhabbarkeit. Allerdings ist insbesondere die Expression eukaryotischer Proteine in E. coli problematisch, z.B. wenn das Protein nicht korrekt gefaltet ist und in unlöslichen Inclusion Bodies anfällt. In manchen Fällen ist die Analyse von Deletionskonstrukten oder einzelnen Proteindomänen der Untersuchung des Vollängeproteins vorzuziehen. Dies umfasst die Herstellung eines Satzes von Expressionskonstrukten, welche charakterisiert werden müssen. In dieser Arbeit werden Methoden optimiert und evaluiert für die in vitro-Faltung von Inclusion Body-Proteinen sowie die Entwicklung einer Hochdurchsatz-Charakterisierung von Expressionskonstrukten. Die Überführung von Inclusion Body-Proteinen in den nativen Zustand beinhaltet zwei Schritte: (a) Auflösen mit einen chaotropen Reagenz oder starkem ionischen Detergenz und (b) Faltung des Proteins durch Beseitigung des Chaotrops begleitet von dem Transfer in einen geeigneten Puffer. Die Ausbeute an nativ gefaltetem Protein ist oft stark eingeschränkt aufgrund von Aggregation und Fehlfaltung; sie kann allerdings durch die Zugabe bestimmter Additive zum Faltungspuffer erhöht werden. Solche Additive müssen empirisch identifiziert werden. In dieser Arbeit wurde eine Testprozedur für Faltungsbedingungen entwickelt. Zur Reduzierung der möglichen Kombinationen der getesteten Additive wurden sowohl empirische Beobachtungen aus der Literatur als auch bekannte Eigenschaften der Additive berücksichtigt. Zur Verminderung der eingesetzten Proteinmenge und des Arbeitsaufwandes wurde der Test automatisiert und miniaturisiert mittels eines Pipettierroboters. 20 Bedingungen zum schnellen Verdünnen von denaturierten Proteinen werden hierbei getestet und zwei Bedingungen zur Faltung von Proteinen mit dem Detergenz/Cyclodextrin Protein-Faltungssystem von Rozema et al. (1996). 100 µg Protein werden pro Bedingung eingesetzt. Zusätzlich werden acht Bedingungen für die Faltung von His-Tag-Fusionsproteinen (ca. 200 µg), welche an eine Metallchelat-Matrix immobilisiert sind, getestet. Die Testprozedur wurde erfolgreich angewendet zur Faltung eines humanen Proteins, der p22 Untereinheit von Dynactin, welche in E. coli in Inclusion Bodies exprimiert wird. So wie es sich bei vielen Proteinen darstellt, war auch für p22 Dynactin kein biologischer Nachweistest vorhanden, um den Erfolg des Faltungsexperimentes zu messen. Die Löslichkeit des Proteins kann nicht als eindeutiges Kriterium dienen, da neben nativ gefaltetem Protein, lösliche fehlgefaltete Spezies und Mikroaggregate auftreten können. Diese Arbeit evaluiert Methoden zur Detektion kleiner Mengen nativen Proteins nach dem automatisierten Faltungstest. Bevor p22 Dynactin gefaltet wurde, wurden zwei Modellenzyme zur Evaluierung eingesetzt, bovine Carboanhydrase II (CAB) und Malat Dehydrogenase aus Schweineherz-Mitochondrien. Die wiedererlangte Aktivität nach der Rückfaltung wurde korreliert mit verschiedenen biophysikalischen Methoden. Bindungsstudien mit 8-Anilino-1-Naphtalenesulfonsäure ergaben keine brauchbaren Informationen bei der Rückfaltung von CAB aufgrund der zu geringen Sensitivität und da fehlgefaltete Proteine nicht eindeutig von nativem Protein unterschieden werden konnten. Tryptophan Fluoreszenzspektren der rückgefalteten CAB wurden zur Einschätzung des Erfolges der Rückfaltung angewandt. Die Verschiebung des Intensitätsmaximum zu einer niedrigeren Wellenlänge im Vergleich zum denaturiert entfalteten Protein sowie die Fluoreszenzintensität korrelierten mit der wiedererlangten enzymatischen Aktivität. Für beide Modellenzyme war analytische hydrophobe Interaktionschromatographie (HIC) brauchbar zur Identifizierung rückgefalteter Proben mit aktivem Enzym. Kompakt gefaltetes, aktives Enzym eluierte in einem distinkten Peak im abnehmenden Ammoniumsulfat-Gradienten. Das Detektionslimit für analytische HIC lag bei 5 µg. Im Falle von CAB konnte gezeigt werden, dass Tryptophan-Fluoreszenz-Spektroskopie und analytische HIC in Kombination geeignet sind um Falsch-Positive oder Falsch-Negative, welche mit einem der Monitore erhalten wurden, auszuschließen. Diese beiden Methoden waren ebenfalls geeignet zur Identifizierung der Faltungsbedingungen von p22 Dynactin. Tryptophan-Fluoreszenz-Spektroskopie kann jedoch zu Falsch-Positiven führen, da in machen Fällen Spektren von löslichen Mikroaggregaten kaum unterscheidbar sind von Spektren des nativ gefalteten Proteins. Dies zusammenfassend wurde eine schnelle und zuverlässige Testprozedur entwickelt, um Inclusion Body-Proteine einer strukturellen und funktionellen Analyse zugänglich zu machen. In einem separaten Projekt wurden 88 verschiedene E. coli-Expressionskonstrukte für 17 humane Proteindomänen, welche durch Sequenzanalyse identifiziert wurden, mit einer Hochdurchsatzreinigung und –faltungsanalytik untersucht, um für die Strukturanalyse geeignete Kandidaten zu erhalten. Nach Expression in einem Milliliter im 96er Mikrotiterplattenformat und automatisierter Proteinreinigung wurden löslich exprimierte Proteindomänen direkt analysiert mittels 1D ¹H-NMR Spektroskopie. Hierbei zeigte sich, dass insbesondere isolierte Methylgruppen-Signale unter 0.5 ppm sensitive und zuverlässige Sonden sind für gefaltetes Protein. Zusätzlich zeigte sich, dass – ähnlich zur Evaluierung des Faltungstests – analytische HIC effizient eingesetzt werden kann zur Identifizierung von Konstrukten, welche kompakt gefaltetes Protein ergeben. Sechs Konstrukte, welche zwei Domänen repräsentieren, konnten schnell als tauglich für die Strukturanalyse gefunden werden. Die Struktur einer dieser Domänen wurde kürzlich von Mitarbeitern gelöst, die andere Struktur wurde im Laufe dieses Projektes von einer anderen Gruppe veröffentlicht. / For recombinant production of proteins for structural and functional analyses, the E. coli expression system is the most widely used due to high yields and straightforward processing. However, particularly the expression of eukaryotic proteins in E. coli is often problematic, e.g. when the protein is not folded correctly and is deposited in insoluble inclusion bodies. In some cases it is favourable to analyse deletion constructs of a protein or an individual protein domain instead of the full-length protein. This implies the generation of a set of expression constructs that need to be characterised. In this work methods to optimise and evaluate in vitro folding of inclusion body proteins as well as high-throughput characterisation of expression constructs were developed. Transferring inclusion body proteins to their native state involves two steps: (a) solubilisation with a chaotropic reagent or a strong ionic detergent and (b) folding of the protein by removal of the chaotrop accompanied by the transfer into an appropriate buffer. The yield of natively folded protein is often substantially reduced due to aggregation or misfolding; it may, however, be improved by certain additives to the folding buffer. These additives need to be identified empirically. In this thesis a screening procedure for folding conditions was developed. To reduce the number of possible combinations of screening additives, empirical observations documented in the literature as well as well known properties of certain screening additives were considered. To decrease the amount of protein and work invested, the screen was miniaturised and automated using a pipetting robot. Twenty rapid dilution conditions for the denatured protein are tested and two conditions for folding of proteins using the detergent/cyclodextrin protein folding system of Rozema et al. (1996). 100 µg protein is used per condition. In addition, eight conditions can be tested for folding of His-tagged proteins (approx. 200 µg) immobilised on metal chelate resins. The screen was successfully applied to fold a human protein, the p22 subunit of dynactin that is expressed in inclusion bodies in E. coli. For p22 dynactin – as is the case for many proteins – there was no biological assay available to assess the success of the folding screen. Protein solubility can not be used as a stringent criterion because beside natively folded protein, soluble misfolded species and microaggregates may occur. This work evaluates methods to detect small amounts of natively folded protein after automated folding screening. Before folding screening with p22 dynactin, two model enzymes, bovine carbonic anhydrase II (CAB) and pig heart mitochondrial malate dehydrogenase, were used for evaluation. Recovered activity after refolding was correlated to different biophysical methods. 8-anilino-1-naphtalenesulfonic acid binding-experiments gave no useful information when refolding CAB, due to low sensitivity and because misfolded protein could not be readily distinguished from native protein. Tryptophan fluorescence spectra of refolded CAB were used to assess the success of refolding. The shift of the intensity maximum to a shorter wavelength, compared to the denaturant unfolded protein, as well as the fluorescence intensity correlated to recovered enzymatic activity. For both model enzymes, analytical hydrophobic interaction chromatography (HIC) was useful to identify refolded samples that contain active enzyme. Compactly folded, active enzyme eluted in a distinct peak in a decreasing ammonium sulfate gradient. The detection limit of analytical HIC was approx. 5 µg. In case of CAB, tryptophan fluorescence spectroscopy and analytical HIC showed that both methods in combination can be useful to rule out false positives or false negatives obtained with one method. These two methods were also useful to identify conditions for folding of p22 dynactin. However, tryptophan fluorescence spectroscopy can lead to false positives because in some cases spectra of soluble microaggregates are not well distinguishable from spectra of natively folded protein. In summary, a fast and reliable screening procedure was developed to make inclusion body proteins accessible to structural or functional analyses. In a separate project, 88 different E. coli expression constructs for 17 human protein domains that had been identified by sequence analysis were analysed using high-throughput purification and folding analysis in order to obtain candidates suitable for structural analysis. After 96 deep-well microplate expression and automated protein purification, solubly expressed protein domains were directly analysed using 1D ¹H-NMR spectroscopy. It was found that isolated methyl group signals below 0.5 ppm are particularly sensitive and reliable probes for folded protein. In addition – similar to the evaluation of a folding screen – analytical HIC proved to be an efficient tool for identifying constructs that yield compactly folded protein. Both methods, 1D ¹H-NMR spectroscopy and analytical HIC, provided complementary results. Six constructs, representing two domains, could be quickly identified as targets that are well suitable for structural analysis. The structure of one of these domains was solved recently by co-workers, the other structure was published by another group during this project.

Life sciences

On Some Properties and Applications of Patterned Ferromagnetic Thin Films

Roy, Pierre E.

January 2006

A microwave reflection method has been used to measure the spin excitations corresponding to the translational mode of magnetic vortices in samples containing either one or two vortices. Experimental findings are complemented by micromagnetic simulations. One-vortex systems are investigated in micron-sized circular and elliptical cylinders. For ellipses, the resonance frequency can effectively be tuned by applying static magnetic fields and the field dependence of the frequency is significant for fields applied along the short axes but negligible when applied along the long axes of the ellipses. This is contrary to the circular case, where virtually no field dependence was found. This can be understood by considering the shape of the vortex potential well. Further, it is found that the resonance frequency is independent on the direction of the excitation field for the one-vortex systems. Ellipses containing two interacting vortices are also investigated. It is shown that the relative vortex core polarizations dominate the vortex translational mode and cause, in the case of opposite polarizations, a dependence on the excitation field direction. For parallel core polarizations, no dependence on the excitation field direction is found. The dependence of the resonance frequencies on applied static fields along the long and short axes are also experimentally mapped out and compared with micromagnetic simulations, where the possible eigenmodes are determined. Another section of the thesis introduces the dawning of a device based on patterned magnetic elliptical elements for the manipulation and movement of magnetic particles on a surface. The controlled movement and separation of individual particles are successfully demonstrated. Contributions to micromagnetic standard problems and simulations on magnetization switching in nanoscale particles have also been performed. The standard problems highlight some important aspects of choosing the discretization cell sizes and the finite temperature simulations show that thermal fluctuations can alter the magnetization reversal paths.

Materials science

micromagnetics

vortex

spin dynamics

domains

MFM

microwave

patterned

permalloy

Materialvetenskap

Materials science

Teknisk materialvetenskap

A library approach to single site and combinatorial residue contributions to dimerization of BNIP3-like transmembrane domains

January 2012

A poly-leucine transmembrane domain library was randomized at positions corresponding to contact surfaces for a right-handed crossing of two helices to determine the significance of small residues, GxxxG motifs, and hydrogen bonding residues in driving helix-helix interactions within membranes. About 10000 sequences, which include the interfaces of tightly interacting biological transmembrane domains, were subjected to increasing selection strength in the membrane interaction assay TOXCAT and surviving clones were sequenced to identify single site and pairwise amino acid trends. Statistical analysis identified a central glycine to be essential to strong dimerization. The next strongest statistical preference was for a phenylalanine three positions before the key glycine. Secondary to these residues, polar histidine and asparagine residues are also favored in strongly dimerizing sequences, but not to the exclusion of hydrophobic leucine and isoleucine. The analysis identifies novel pairwise combinations that contribute to or are excluded from strong dimerization, the most striking of which is that the biologically important GxxxGxxxG/A pattern is under-represented in the most strongly associating BNIP3-like transmembrane dimers. The variety of residue combinations that support strong dimerization indicates that not only key 'motif' residues, but also the residues that flank them, are important for strong dimerization. Because favorable pairwise combinations of flanking residues occur between both proximal positions and residues separated by two or more turns of helix, the complexity of how sequence context influences motif-driven dimerization is very high.

Pure sciences

Biological sciences

Dimerization

Transmembrane domains

Combinatorial residue

Cellular biology

Microbiology

Biochemistry

On completeness of root functions of Sturm-Liouville problems with discontinuous boundary operators

Shlapunov, Alexander, Tarkhanov, Nikolai

January 2012

We consider a Sturm-Liouville boundary value problem in a bounded domain D of R^n. By this is meant that the differential equation is given by a second order elliptic operator of divergent form in D and the boundary conditions are of Robin type on bD. The first order term of the boundary operator is the oblique derivative whose coefficients bear discontinuities of the first kind. Applying the method of weak perturbation of compact self-adjoint operators and the method of rays of minimal growth, we prove the completeness of root functions related to the boundary value problem in Lebesgue and Sobolev spaces of various types.

Sturm-Liouville problems

discontinuous Robin condition

root functions

Lipschitz domains

Mathematics

Characterization of the Role of Neuralized in Delta Endocytosis and Notch Signalling

Skwarek, Lara Casandra

28 September 2009

Development requires the acquisition of different cell fates. A major conserved pathway required for cell fate determination is the Notch signalling pathway. Neuralized is a key regulator of the Notch pathway and is essential for embryonic development in Drosophila melanogaster. I have been studying the role of Neuralized during Drosophila development, focusing on the regulation of this protein. Neuralized is an E3 ubiquitin ligase that targets Notch ligands for ubiquitination and endocytosis in the signal sending cell. This endocytic event is required for signal transduction, and cells lacking Neuralized fail to signal through Notch. I have identified a conserved interaction between Neuralized and phosphoinositides that is essential for the ability of Neuralized to promote ligand endocytosis and Notch signalling. Interactions between Neuralized and phosphoinositides are not required for ligand ubiquitination, identifying a role for Neuralized in downstream aspects of ligand trafficking. I have also determined that Neuralized is dynamically regulated through a combination of tissue specific expression, subcellular trafficking, protein interactions and posttranslational modification. Neuralized contains two related protein domains of unknown function called Neuralized homology repeats (NHR). To gain insight into the function of the NHR domain, I characterized another NHR containing protein, CG3894. CG3894 is required for development and preliminary data indicate that NHR domains dimerize, suggesting a possible interaction between Neuralized and CG3894. The study of Neuralized in Drosophila has contributed to our understanding of this essential protein both at a developmental and cellular level, and has provided a means through which to ask questions about regulation of Notch signalling in a relatively simple context. Given the importance of Notch signalling to development, and contributions that aberrations in signalling make to cancer and diseases of the nervous system, expanding our understanding of the regulation of Notch signalling is essential to understanding how this important pathway functions.

Notch

Neuralized

phosphoinositides

ubiquitin ligase

Drosophila

signalling

NHR domains

CG3894

0379

Heat and moisture migration within a porous urea particle bed

Nie, Xiaodong Rachel

31 August 2010

Urea is an important nitrogen fertilizer for plant nutrition, but is very susceptible to moisture sorption and caking even at low moisture contents, e.g. 0.25% w/w. When urea particles adsorb moisture followed by drying, crystal bridges form between urea particles. For particles in a bed, this process is called caking. Cakes in stored urea cause a degradation of its quality and value. Investigations of the moisture absorption in beds of manufactured urea particles and adsorption on the external and internal surfaces of urea particles are a necessary step if engineers are to recommend procedures to reduce caking and control inventories. Research on moisture adsorption and cake strength of urea fertilizer has not been sufficiently explored. Only recently have researchers started to devise tests to investigate the crystal bonding between two urea particles. Prior to this research, investigations of the moisture interactions in beds of urea were nearly non-existent. This thesis presents experimental, theoretical and numerical methods to investigate the coupled heat and moisture transfer processes in a bed of urea particles while the bed is exposed to ambient air with changing temperature and humidity.<p> Urea particles are nearly spherical with uniform particle size distribution. The particle size, its internal pore structure and rough crystalline external surface depend on the manufacturing process. In this thesis, two types of urea products are investigated, i.e. prill Georgia urea and granular Terico urea. The rough external surface and internal pore structure of each particle makes the total surface area exposed to water much larger than similar smooth and solid spherical particles. Although Georgia urea has higher external surface area than Terico urea, the latter type has larger total surface area and internal pore volume. For both Terico urea and Georgia, the internal surface area dominates the water sorption process but the external moisture sorption of Georgia urea is more important than that of Terico urea.<p> All the water vapor interaction experiments were carried out with air flow through a test bed because it shortens the duration of each experiment to a few hours in most cases. A series of experiments with step changes in inlet air temperature and humidity for air flow through a urea bed indicated that the measured outlet air temperature and humidity responses, each at a specific air flow rate, reveals a typical exponential or transient time change that can be characterized by a time constant. After formulating the theoretical problem for step changes in the inlet properties, the analytical solutions showed that the time constants of outlet response to whether a temperature step change or a humidity step change are functions of the convection coefficient and air velocity. The predicted outlet air temperature is determined by only one time constant for a temperature step change while it is determined by these two time constants for a humidity step change.<p> A new test cell with sampling test ports was developed to measure the transient moisture uptake of a urea particle bed and its distribution at any time without any interruption of the experiment. A novel particle sampling device, modified from a syringe and pistons, was designed to minimize the particle exposure to ambient air during the moisture content determination using a Karl Fischer titrator. Data from two continuous cyclic step changes in the inlet flow with relative humidities between 4% and 70% at room temperature showed a hysteresis in the isothermal moisture content for only the first cycle. After the second sorption- desorption cycle, the hysteresis disappeared. This implies that the internal pore and particle surface geometry changes are very slow after the first cycle.<p> A new theoretical porous media model was developed for a coupled heat and moisture transport process when humid air flowed uniformly through a large test bed in two coupled computational domains: internal domain (i.e., the particle phase) and the external domain (i.e., the interstitial air space). The moisture migration in two computational domains included: water vapor diffusion inside each particle, and water vapor convection and diffusion in the interstitial air space in the urea particle bed. For energy transport, the temperature was assumed to be uniform inside each particle, but heat convection and conduction between the urea particles and the interstitial air outside particles occurred throughout the bed. Both heat transfer and mass transfer in internal domain and external domain were coupled by the heat and mass convection at the gas-particle interface. The numerical simulation was compared with the data of moisture uptake and showed good agreement implying that the internal moisture diffusion that dominates the moisture uptake process is a very slow process.<p> These above experimental, theoretical and numerical research studies provide a set of information on how urea particles adsorb or desorb moisture from or to ambient air on the external and internal pore surface, which offers a useful suggestion for urea caking prevention and is also a first and necessary step to the study of further caking formation and strength.

Moisture soprtion and desorption

Coupled computational domains

Rough surface

Porous particle

Internal diffusion

Urea fertilizer