Pattern Analysis Meets Cell Biology

The widespread availability of automated fluorescence microscope systems has led to an explosion in the acquisition of digital images by biologists. This has created a need for computer applications that automate the analysis of these images and an opportunity to develop new approaches to classical problems. An example is the determination of the subcellular location of a protein from immunofluorescence images (or, more recently, images of GFP fluorescence). Current practice is to compare such images to mental images that a cell biologist has developed over time, and to reach a tentative conclusion about the structure (i.e., organelle) that a protein is found in. Since this determination is subjective, it often must be followed up by double labeling with a marker protein from the suspected structure.As an initial exploration of the feasibility of automating the determination of subcellular location, we developed a system that is able to classify the localization patterns characteristic of five cellular molecules (proteins and DNA) in Chinese Hamster Ovary (CHO) cells. Images were acquired on an epifluorescence microscope after the cells had been fixed, permeabilized, and labeled with appropriate fluorescent reagents (usually antibodies conjugated to fluorescent dyes). The labels used were directed against a Golgi protein, a lysosomal protein, a nuclear protein, a cytoskeletal protein, and DNA.

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Advances in Predicting Subcellular Localization of Multi-label Proteins and its Implication for Developing Multi-target Drugs

Current Medicinal Chemistry ◽

10.2174/0929867326666190507082559 ◽

2019 ◽

Vol 26 (26) ◽

pp. 4918-4943 ◽

Cited By ~ 39

Author(s):

Kuo-Chen Chou

Keyword(s):

Drug Development ◽

Subcellular Localization ◽

Cell Biology ◽

Subcellular Location ◽

Cellular Level ◽

Protein Molecules ◽

A Cell ◽

Entire Cell ◽

The Right ◽

A Current

The smallest unit of life is a cell, which contains numerous protein molecules. Most of the functions critical to the cell’s survival are performed by these proteins located in its different organelles, usually called ‘‘subcellular locations”. Information of subcellular localization for a protein can provide useful clues about its function. To reveal the intricate pathways at the cellular level, knowledge of the subcellular localization of proteins in a cell is prerequisite. Therefore, one of the fundamental goals in molecular cell biology and proteomics is to determine the subcellular locations of proteins in an entire cell. It is also indispensable for prioritizing and selecting the right targets for drug development. Unfortunately, it is both timeconsuming and costly to determine the subcellular locations of proteins purely based on experiments. With the avalanche of protein sequences generated in the post-genomic age, it is highly desired to develop computational methods for rapidly and effectively identifying the subcellular locations of uncharacterized proteins based on their sequences information alone. Actually, considerable progresses have been achieved in this regard. This review is focused on those methods, which have the capacity to deal with multi-label proteins that may simultaneously exist in two or more subcellular location sites. Protein molecules with this kind of characteristic are vitally important for finding multi-target drugs, a current hot trend in drug development. Focused in this review are also those methods that have use-friendly web-servers established so that the majority of experimental scientists can use them to get the desired results without the need to go through the detailed mathematics involved.

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Conformation of Ribosomes from Escherichia Coli

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100051062 ◽

1974 ◽

Vol 32 ◽

pp. 210-211

Author(s):

M. Boublik ◽

W. Hellmann ◽

F. Jenkins

Keyword(s):

Binding Sites ◽

Ribosomal Proteins ◽

Fluorescent Dyes ◽

Protein Biosynthesis ◽

Three Dimensional ◽

Spatial Arrangement ◽

Dimensional Structure ◽

Complete Understanding ◽

And Function

The present knowledge of the three-dimensional structure of ribosomes is far too limited to enable a complete understanding of the various roles which ribosomes play in protein biosynthesis. The spatial arrangement of proteins and ribonuclec acids in ribosomes can be analysed in many ways. Determination of binding sites for individual proteins on ribonuclec acid and locations of the mutual positions of proteins on the ribosome using labeling with fluorescent dyes, cross-linking reagents, neutron-diffraction or antibodies against ribosomal proteins seem to be most successful approaches. Structure and function of ribosomes can be correlated be depleting the complete ribosomes of some proteins to the functionally inactive core and by subsequent partial reconstitution in order to regain active ribosomal particles.

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Presence of antibody in virus-infected brain cells of SSPE ferrets

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100077591 ◽

1983 ◽

Vol 41 ◽

pp. 804-805

Author(s):

Hannah R. Brown ◽

Tammy L. Donato ◽

Halldor Thormar

Keyword(s):

Measles Virus ◽

Plasma Cells ◽

Subacute Sclerosing Panencephalitis ◽

Protein A ◽

Neutralizing Antibody ◽

Brain Cells ◽

Antibody Titers ◽

A Cell ◽

The Central Nervous System ◽

The Brain

Measles virus specific immunoglobulin G (IgG) has been found in the brains of patients with subacute sclerosing panencephalitis (SSPE), a slowly progressing disease of the central nervous system (CNS) in children. IgG/albumin ratios indicate that the antibodies are synthesized within the CNS. Using the ferret as an animal model to study the disease, we have been attempting to localize the Ig's in the brains of animals inoculated with a cell associated strain of SSPE. In an earlier report, preliminary results using Protein A conjugated to horseradish peroxidase (PrAPx) (Dynatech Diagnostics Inc., South Windham, ME.) to detect antibodies revealed the presence of immunoglobulin mainly in antibody-producing plasma cells in inflammatory lesions and not in infected brain cells.In the present experiment we studied the brain of an SSPE ferret with neutralizing antibody titers of 1:1024 in serum and 1:512 in CSF at time of sacrifice 7 months after i.c. inoculation with SSPE measles virus-infected cells. The animal was perfused with saline and portions of the brain and spinal cord were immersed in periodate-lysine-paraformaldehyde (P-L-P) fixative. The ferret was not perfused with fixative because parts of the brain were used for virus isolation.

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Determination of glycolic acid level in higher plants during photorespiration by stable isotope dilution mass spectrometry with double-labeling experiments

Analytical Biochemistry ◽

10.1016/0003-2697(85)90012-0 ◽

1985 ◽

Vol 147 (1) ◽

pp. 86-91 ◽

Cited By ~ 5

Author(s):

Pascale Jolivet ◽

Pierre Gans ◽

Christian Triantaphylides

Keyword(s):

Mass Spectrometry ◽

Stable Isotope ◽

Isotope Dilution ◽

Acid Level ◽

Glycolic Acid ◽

Higher Plants ◽

Isotope Dilution Mass Spectrometry ◽

Double Labeling ◽

Stable Isotope Dilution

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2,4-Dichlorophenol and MCPA in a V79 Test

Alternatives to Laboratory Animals ◽

10.1177/026119298801500314 ◽

1988 ◽

Vol 15 (3) ◽

pp. 245-250

Author(s):

Geirid Fiskesjö

Keyword(s):

Chinese Hamster ◽

Chinese Hamster Cell ◽

Test System ◽

Similar Degree ◽

Human Beings ◽

Industrial Chemicals ◽

Allium Test ◽

Chinese Hamster Cell Line ◽

A Cell ◽

Mutagenic Effects

Two industrial chemicals, 2,4-dichlorophenol and 4-chloro-2-methylphenoxyacetic acid (MCPA), which have no toxic effects on the Chinese hamster cell line V79 alone, were tested for toxicity and mutagenicity in a cell-mediated test, where mixed-function oxidase (MFO) enzymes are active in the metabolism of xenobiotics. For 2,4-dichlorophenol, a dose-dependent toxicity as well as a slight mutagenicity could be shown when oxygenation enzymes were present. A similar degree of toxicity in a plant test system (the Allium test) indicates a similar risk of damage from exposure to dichlorophenol treatments in both these systems. MCPA did not induce any toxic or mutagenic effects at the concentrations tested. These results were not in agreement with previous results in plant material, where MCPA was clearly toxic at relatively low doses. However, since chlorophenols have been found in plants sprayed with phenoxyacetic acids, further investigations should be performed concerning potential risk to human beings.

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Automatic determination of labeling density in protein A-gold immunocytochemical preparations using an image analyzer

Histochemistry ◽

10.1007/bf00502096 ◽

1985 ◽

Vol 82 (1) ◽

pp. 99-100 ◽

Cited By ~ 10

Author(s):

K. Beier ◽

H. D. Fahimi

Keyword(s):

Protein A ◽

Image Analyzer ◽

Automatic Determination

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Experimental study of the interaction range and association rate of surface-attached cadherin 11

Proceedings of the National Academy of Sciences ◽

10.1073/pnas.95.16.9256 ◽

1998 ◽

Vol 95 (16) ◽

pp. 9256-9261 ◽

Cited By ~ 33

Author(s):

Anne Pierres ◽

Hélène Feracci ◽

Véronique Delmas ◽

Anne-Marie Benoliel ◽

Jean-Paul Thiery ◽

...

Keyword(s):

Adhesion Molecules ◽

Bond Formation ◽

Slow Motion ◽

Classical Type ◽

Association Rate ◽

Interaction Range ◽

A Cell ◽

Coated Surfaces ◽

The Relationship

We describe a method allowing quantitative determination of the interaction range and association rate of individual surface-attached molecules. Spherical beads (1.4 μm radius) were coated with recombinant outer domains of the newly described classical type II cadherin 11, a cell adhesion molecule. Beads were driven along cadherin-coated surfaces with a hydrodynamic force of ≈1 pN, i.e., much less than the mechanical strength of many ligand-receptor bonds. Spheres displayed periods of slow motion interspersed with arrests of various duration. Particle position was monitored with 50 Hz frequency and 0.025 μm accuracy. Nearly 1 million positions were recorded and processed. Comparison between experimental and computer-simulated trajectories suggested that velocity fluctuations might be related quantitatively to Brownian motion perpendicular to the surface. The expected amplitude of this motion was of order of 100 nm. Theoretical analysis of the relationship between sphere acceleration and velocity allowed simultaneous determination of the wall shear rate and van der Waals attraction between spheres and surface. The Hamaker constant was estimated at 2.9 × 10−23 J. The frequency of bond formation was then determined as a function of sphere velocity. Experimental data were consistent with the view that the rate of association between a pair of adhesion molecules was ≈1.2 × 10−3 s−1 and the interaction range was ≈10 nm. It is concluded that the presented methodology allows sensitive measurement of sphere-to-surface interactions (with ≈10 fN sensitivity) as well as the effective range and rate of bond formation between individual adhesion molecules.

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