Effect of hydroxyapatite particle size on the formation of chloropyromorphite in anglesite–hydroxyapatite suspensions

Abstract - There are several problems in storing wood chips freshly harvested from short rotation plantations, which result in quality losses as well as in dry matter and energy losses. The factors influencing the degradation of raw material are examined in this paper with special focus on fungal development. An excessive growth of fungi is connected to dry matter losses and also to an increased health risk during raw material handling. The following factors were measured during 6 months storage of poplar wood chips depending on particle size: box temperature, moisture content, pH-value, appearance of fungi in the storage and the concentration of fungal particles in the air. The results show a close connection between particle size, temperature and attack of fungi. During the storage mesophilic and termophilic species of the genera Alternaria, Aspergillus, Cladosporium, Mucor and Penicillium appeared. The concentration of fungal particles is the highest for fine chips and decreases in bigger particles. There was a special focus on the investigation of the properties of coarse chips (G 50), which represent a good compromise between handling, storage losses and health risk due to fungal development.

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Freezing in Silicon at Large Undercooling

MRS Proceedings ◽

10.1557/proc-157-363 ◽

1989 ◽

Vol 157 ◽

Author(s):

P.A. Stolk ◽

A. Polman ◽

W.C. Sinke

Keyword(s):

Interface Temperature ◽

Limiting Factor ◽

Time Resolved ◽

Large Undercooling ◽

Explosive Crystallization ◽

Crystallization Speed ◽

Solid Liquid Interface ◽

Solid Liquid ◽

Rate Limiting

ABSTRACTPulsed laser irradiation is used to induce epitaxial explosive crystallization of amorphous silicon layers buried in a (100) oriented crystalline matrix. This process is mediated by a self-propagating liquid layer. Time-resolved determination of the crystallization speed combined with numerical calculation of the interface temperature shows that freezing in silicon saturates at 16 m/s for large undercooling (> 130 K). A comparison between data and different models for melting and freezing indicates that the crystallization behavior at large undercooling can be described correctly if the rate-limiting factor is assumed to be diffusion in liquid Si at the solid/liquid interface.

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Biosorption of uranium(VI) from aqueous solution by biomass of brown algae Laminaria japonica

Water Science & Technology ◽

10.2166/wst.2014.205 ◽

2014 ◽

Vol 70 (1) ◽

pp. 136-143 ◽

Cited By ~ 17

Author(s):

K. Y. Lee ◽

K. W. Kim ◽

Y. J. Baek ◽

D. Y. Chung ◽

E. H. Lee ◽

...

Keyword(s):

Particle Size ◽

Brown Algae ◽

Activated Carbons ◽

Laminaria Japonica ◽

Limiting Factor ◽

Stable Operation ◽

Experimental Conditions ◽

Wastewater Treatment Process ◽

Radioactive Wastewater ◽

Ionic Diffusivity

The uranium(VI) adsorption efficiency of non-living biomass of brown algae was evaluated in various adsorption experimental conditions. Several different sizes of biomass were prepared using pretreatment and surface-modification steps. The kinetics of uranium uptake were mainly dependent on the particle size of the prepared Laminaria japonica biosorbent. The optimal particle size, contact time, and injection amount for the stable operation of the wastewater treatment process were determined. Spectroscopic analyses showed that uranium was adsorbed in the porous inside structure of the biosorbent. The ionic diffusivity in the biomass was the dominant rate-limiting factor; therefore, the adsorption rate was significantly increased with decrease of particle size. From the results of comparative experiments using the biosorbents and other chemical adsorbents/precipitants, such as activated carbons, zeolites, and limes, it was demonstrated that the brown algae biosorbent could replace the conventional chemicals for uranium removal. As a post-treatment for the final solid waste reduction, the ignition treatment could significantly reduce the weight of waste biosorbents. In conclusion, the brown algae biosorbent is shown to be a favorable adsorbent for uranium(VI) removal from radioactive wastewater.

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Screening and Desilication of a Silicate Bacteria

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.236-238.253 ◽

2011 ◽

Vol 236-238 ◽

pp. 253-257

Author(s):

Xian Zhen Zhang ◽

De Si Sun ◽

Hai Lin

Keyword(s):

Particle Size ◽

Incubation Time ◽

Ph Value ◽

Solution Temperature ◽

Optimum Conditions ◽

Initial Ph ◽

Silicate Bacteria ◽

Bauxite Ore

The strain Jgj-1 was isolated from Gaoan bauxite ore. The relations of desilication of the strain Jgj-1 and the pH of solution, temperature, shaking speed, incubation time, particle size were investigated. The results shows the optimum conditions of bioleaching are as following: at 28°C, initial pH value is 7.2, particle size 0.056mm, 200rpm shaking speed, incubation 5-7 days.

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pH-sensitivity of the ribosomal peptidyl transfer reaction dependent on the identity of the A-site aminoacyl-tRNA

Proceedings of the National Academy of Sciences ◽

10.1073/pnas.1012612107 ◽

2010 ◽

Vol 108 (1) ◽

pp. 79-84 ◽

Cited By ~ 90

Author(s):

Magnus Johansson ◽

Ka-Weng Ieong ◽

Stefan Trobro ◽

Peter Strazewski ◽

Johan Åqvist ◽

...

Keyword(s):

Ph Value ◽

Ph Dependence ◽

Peptide Bond ◽

Bulk Solution ◽

Peptide Bond Formation ◽

Transfer Rates ◽

Peptidyl Transfer ◽

A Site ◽

Rate Limiting ◽

Site Binding

We studied the pH-dependence of ribosome catalyzed peptidyl transfer from fMet-tRNAfMet to the aa-tRNAs Phe-tRNAPhe, Ala-tRNAAla, Gly-tRNAGly, Pro-tRNAPro, Asn-tRNAAsn, and Ile-tRNAIle, selected to cover a large range of intrinsic pKa-values for the α-amino group of their amino acids. The peptidyl transfer rates were different at pH 7.5 and displayed different pH-dependence, quantified as the pH-value, , at which the rate was half maximal. The -values were downshifted relative to the intrinsic pKa-value of aa-tRNAs in bulk solution. Gly-tRNAGly had the smallest downshift, while Ile-tRNAIle and Ala-tRNAAla had the largest downshifts. These downshifts correlate strongly with molecular dynamics (MD) estimates of the downshifts in pKa-values of these aa-tRNAs upon A-site binding. Our data show the chemistry of peptide bond formation to be rate limiting for peptidyl transfer at pH 7.5 in the Gly and Pro cases and indicate rate limiting chemistry for all six aa-tRNAs.

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Hormone-Induced Lipolysis and The Metabolic Pathways Providing Energy To The Cell: A Possible Role of Atp As a Rate-Limiting Factor

Lipids, Lipoproteins, and Drugs - Advances in Experimental Medicine and Biology ◽

10.1007/978-1-4684-3258-9_7 ◽

1975 ◽

pp. 105-122 ◽

Cited By ~ 1

Author(s):

G. Fassina ◽

P. Dorigo ◽

R. M. Gaion

Keyword(s):

Metabolic Pathways ◽

Limiting Factor ◽

Rate Limiting

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Effects of feed properties in spray drying formulation of prototype industrial cracking catalysts

Ministry of Science and Technology, Vietnam ◽

10.31276/vjst.63(6).41-44 ◽

2021 ◽

Vol 63 (6) ◽

pp. 41-44

Author(s):

Duc Hoan Truong ◽

◽

Thuy Phuong Ngo- ◽

Duc Manh Dinh ◽

Thanh Tung Dang ◽

...

Keyword(s):

Particle Size ◽

Surface Area ◽

Spray Drying ◽

Ph Value ◽

Catalyst Particle ◽

Active Phase ◽

Solid Content ◽

Medium Ph ◽

Hy Zeolite ◽

Cracking Catalysts

This paper studied the effects of feed properties in spray drying formulation of prototype industrial cracking catalysts at the laboratory scale. The results showed that the pH of the drying feed mainly affected the active phase HY zeolite. At a high pH value, a strongly alkaline medium (pH 14), the HY zeolite structure was completely destroyed, resulting in the cracking catalyst with a low surface area. Hence, the pH of the drying feed should be adjusted to a low value, preferably a slightly acidic medium (pH 3). The solid content mainly affected the particle size of the cracking catalyst. As increasing the solid content in the drying feed, the particle size of the cracking catalysts increased and reached the maximum average value at about 40 μm which corresponded to the solid content of 15 wt.%. At a higher solid content (20 wt.%), the catalyst particle size and surface area tended to decrease. Thus, the solid content of 15 wt.% was considered to be optimal.

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Recognized and Emerging Features of Erythropoietic and X-Linked Protoporphyria

Diagnostics ◽

10.3390/diagnostics12010151 ◽

2022 ◽

Vol 12 (1) ◽

pp. 151

Author(s):

Elena Di Pierro ◽

Francesca Granata ◽

Michele De Canio ◽

Mariateresa Rossi ◽

Andrea Ricci ◽

...

Keyword(s):

Biosynthetic Pathway ◽

Aminolevulinic Acid ◽

Protoporphyrin Ix ◽

Limiting Factor ◽

Zinc Protoporphyrin ◽

Complete Understanding ◽

Inherited Disorders ◽

Rate Limiting ◽

Systemic Accumulation ◽

Made In

Erythropoietic protoporphyria (EPP) and X-linked protoporphyria (XLP) are inherited disorders resulting from defects in two different enzymes of the heme biosynthetic pathway, i.e., ferrochelatase (FECH) and delta-aminolevulinic acid synthase-2 (ALAS2), respectively. The ubiquitous FECH catalyzes the insertion of iron into the protoporphyrin ring to generate the final product, heme. After hemoglobinization, FECH can utilize other metals like zinc to bind the remainder of the protoporphyrin molecules, leading to the formation of zinc protoporphyrin. Therefore, FECH deficiency in EPP limits the formation of both heme and zinc protoporphyrin molecules. The erythroid-specific ALAS2 catalyses the synthesis of delta-aminolevulinic acid (ALA), from the union of glycine and succinyl-coenzyme A, in the first step of the pathway in the erythron. In XLP, ALAS2 activity increases, resulting in the amplified formation of ALA, and iron becomes the rate-limiting factor for heme synthesis in the erythroid tissue. Both EPP and XLP lead to the systemic accumulation of protoporphyrin IX (PPIX) in blood, erythrocytes, and tissues causing the major symptom of cutaneous photosensitivity and several other less recognized signs that need to be considered. Although significant advances have been made in our understanding of EPP and XLP in recent years, a complete understanding of the factors governing the variability in clinical expression and the severity (progression) of the disease remains elusive. The present review provides an overview of both well-established facts and the latest findings regarding these rare diseases.

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Neutrophil Extracellular Traps-DNase Balance and Autoimmunity

Cells ◽

10.3390/cells10102667 ◽

2021 ◽

Vol 10 (10) ◽

pp. 2667

Author(s):

Andrea Angeletti ◽

Stefano Volpi ◽

Maurizio Bruschi ◽

Francesca Lugani ◽

Augusto Vaglio ◽

...

Keyword(s):

Lupus Erythematosus ◽

Causative Factor ◽

Neutrophil Extracellular Traps ◽

Limiting Factor ◽

Systemic Lupus ◽

Extracellular Traps ◽

Number Of Patients ◽

Selective Depletion ◽

Dna Antibodies ◽

Rate Limiting

Neutrophil extracellular traps (NETs) are macromolecular structures programmed to trap circulating bacteria and viruses. The accumulation of NETs in the circulation correlates with the formation of anti-double-stranded (ds) DNA antibodies and is considered a causative factor for systemic lupus erythematosus (SLE). The digestion of DNA by DNase1 and DNases1L3 is the rate- limiting factor for NET accumulation. Mutations occurring in one of these two DNASE genes determine anti-DNA formation and are associated with severe Lupus-like syndromes and lupus nephritis (LN). A second mechanism that may lead to DNase functional impairment is the presence of circulating DNase inhibitors in patients with low DNase activity, or the generation of anti-DNase antibodies. This phenomenon has been described in a relevant number of patients with SLE and may represent an important mechanism determining autoimmunity flares. On the basis of the reviewed studies, it is tempting to suppose that the blockade or selective depletion of anti-DNase autoantibodies could represent a potential novel therapeutic approach to prevent or halt SLE and LN. In general, strategies aimed at reducing NET formation might have a similar impact on the progression of SLE and LN.

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Glypican-1 drives unconventional secretion of Fibroblast Growth Factor 2

10.1101/2021.11.11.468179 ◽

2021 ◽

Author(s):

Carola Sparn ◽

Eleni Dimou ◽

Annalena Meyer ◽

Roberto Saleppico ◽

Sabine Wegehingel ◽

...

Keyword(s):

Growth Factor ◽

Heparan Sulfate ◽

Fibroblast Growth Factor ◽

Fibroblast Growth Factor 2 ◽

Structural Basis ◽

Limiting Factor ◽

Fibroblast Growth ◽

Unconventional Secretion ◽

Rate Limiting

Fibroblast Growth Factor 2 (FGF2) is a tumor cell survival factor that is transported into the extracellular space by an unconventional secretory mechanism. Cell surface heparan sulfate proteoglycans are known to play an essential role in this process. Unexpectedly, we found that among the diverse sub-classes consisting of syndecans, perlecans, glypicans and others, Glypican-1 (GPC1) is both the principle and rate-limiting factor that drives unconventional secretion of FGF2. By contrast, we demonstrate GPC1 to be dispensable for FGF2 signaling into cells. We provide first insights into the structural basis for GPC1-dependent FGF2 secretion, identifying disaccharides with N-linked sulfate groups to be enriched in the heparan sulfate chains of GPC1 to which FGF2 binds with high affinity. Our findings have broad implications for the role of GPC1 as a key molecule in tumor progression.

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