Separation of an Antibody Molecule by a Specific Reaction with an Antigen-coated Latex Particle

1. The infectious agent of trachoma can be freed from extraneous bacteria by passage through rabbit testicle. 2. The infectious agent multiplies little, if at all, during such passage, but in many instances retains its infectivity undiminished. 3. No specific changes occur in the rabbit testicle incidentally to the passage. 4. On rare occasion the trachoma agent may be freed from bacteria by intracerebral passage. The brain tissues show no specific reaction. 5. Filtration experiments with Seitz, Kramer, Berkefeld, and Elford filters confirm the general observation that the infectious agent is filterable with difficulty. 6. Tissue culture experiments, with tissues containing the infectious agent (conjunctiva, rabbit testicle, brain, etc.), conducted under a wide variety of conditions, proved uniformly unsuccessful in the cultivation of the agent. 7. The agent is inactivated by bile, AgNO3, phenol, cocaine, tartar emetic, and gentian violet. Its heat inactivation temperature is between 45° and 50°C., at a time interval of 15 minutes. 8. Attempts to preserve the infectious agent in glycerine were unsuccessful. 9. The accumulated evidence suggests that the infectious agent of trachoma is a virus.

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SENSITIVITY ANALYSIS AND IDENTIFIABILITY OF A MATHEMATICAL MODEL OF A CHEMICAL REACTION

СИСТЕМЫ УПРАВЛЕНИЯ И ИНФОРМАЦИОННЫЕ ТЕХНОЛОГИИ ◽

10.36622/vstu.2021.84.2.003 ◽

2021 ◽

pp. 14-18

Author(s):

Л.Ф. Сафиуллина

Keyword(s):

Mathematical Model ◽

Inverse Problem ◽

Sensitivity Analysis ◽

Chemical Reaction ◽

Reaction Model ◽

Numerical Calculations ◽

Specific Reaction ◽

Uniqueness Of The Solution ◽

The Mathematical Model ◽

Kinetics Of

В статье рассмотрен вопрос идентифицируемости математической модели кинетики химической реакции. В процессе решения обратной задачи по оценке параметров модели, характеризующих процесс, нередко возникает вопрос неединственности решения. На примере конкретной реакции продемонстрирована необходимость проводить анализ идентифицируемости модели перед проведением численных расчетов по определению параметров модели химической реакции. The identifiability of the mathematical model of the kinetics of a chemical reaction is investigated in the article. In the process of solving the inverse problem of estimating the parameters of the model, the question arises of the non-uniqueness of the solution. On the example of a specific reaction, the need to analyze the identifiability of the model before carrying out numerical calculations to determine the parameters of the reaction model was demonstrated.

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The relationship between CSF and serum findings when diagnosed with syphilis

Kazan medical journal ◽

10.17816/kazmj49811 ◽

1935 ◽

Vol 31 (1) ◽

pp. 138-138

Author(s):

F. Каug

Keyword(s):

Cerebrospinal Fluid ◽

Blood Serum ◽

Specific Reaction ◽

Highly Sensitive ◽

Positive Serum ◽

The Relationship

The authors studied the question of whether a highly sensitive and strictly specific reaction of blood serum flocculation can be an auxiliary tool in assessing positive reactions of cerebrospinal fluid. A study of 1400 cases has proven that a positive serum flocculation reaction invariably accompanies a special colloidal reaction (Goldsolreaktion).

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Functional Group Interconversion Reactions in Continuous Flow Reactors

Current Organic Chemistry ◽

10.2174/1385272825666210610154414 ◽

2021 ◽

Vol 25 ◽

Author(s):

Alexander Leslie ◽

Angel Maria Joseph ◽

Marcus Baumann

Keyword(s):

Continuous Flow ◽

Functional Group ◽

Modern Synthesis ◽

Flow Reactors ◽

Flow Synthesis ◽

Specific Reaction ◽

Solid Foundation ◽

Continuous Flow Reactors ◽

Flow Techniques

: An overview of the current uptake of continuous flow techniques for various functional group interconversion reactions is presented. Besides highlighting a variety of prominent examples and their main features, this review provides insights into specific reaction classes, such as oxidations, reductions, rearrangements as well as different C-H functionalization processes. While this review can only include key examples from the last decade, the reader will find a solid foundation of important transformations along with further references to inform and appreciate the opportunities arising from modern synthesis technologies such as flow synthesis.

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STUDIES ON HOMOGENEOUS FIRST ORDER GAS REACTIONS: VII. THE DECOMPOSITION OF ETHYLIDENE DIBUTYRATE AND HEPTYLIDENE DIACETATE

Canadian Journal of Research ◽

10.1139/cjr37b-026 ◽

1937 ◽

Vol 15b (6) ◽

pp. 247-253 ◽

Cited By ~ 5

Author(s):

C. C. Coffin ◽

J. R. Dacey ◽

N. A. D. Parlee

Keyword(s):

Activation Energy ◽

Homologous Series ◽

Reaction Velocity ◽

Vapor State ◽

Specific Reaction ◽

First Order ◽

Gas Reactions

Ethylidene dibutyrate and heptylidene diacetate decompose in the vapor state at temperatures between 200° and 300 °C. to form an aldehyde and an anhydride. The reactions are homogeneous, unimolecular, and complete. The activation energy is the same as that previously found for other members of this homologous series. Ethylidene dibutyrate decomposes at the same rate as ethylidene diacetate, and thus provides further evidence that the specific reaction velocity is independent of the size of the anhydride radicals. Heptylidene diacetate decomposes at the same rate as butylidene diacetate. This indicates that after the aldehyde radical has attained a certain size (three or four carbon atoms) the addition of –CH2− groups leaves the specific reaction velocity unchanged. The velocity constants are given by the equations[Formula: see text]

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