curriculum vitae

... Bezděková D., Buzgo M., Míčková A.: Plasmatic modification of PVA nanofibers to enhance adhesion and proliferation of mesenchymal stem cell (lecture at TermStem conference, Porto, Portugal, 2013) Buzgo M., Greplova J., Soural M., Bezdekova D. , Lukasova V. , Mickova A. , Lytvynets A. , Hlavac J. , E ...

Laboratory 4: Cells Structure and Function

... Laboratory 4: Cells Structure and Function Although the cell is the basic structural and functional unit of all organisms, cells differ enormously in size, shape, and function. Some are free living, independent organisms, while others are immovably fixed as part of tissues of multicellular organisms ...

Unit 3 Review Study Guide

... Background Information: There are many different types of cells in the human body. None of these cells function on their own well. These cells are part of the larger organism that is called – human. Cells work together to form tissues. There are four main types of tissues: muscle tissue, nervous tis ...

Check In: WHAT ARE CELLS?

... In the second part of What Are Cells?, you will be looking at how different organisms have different numbers of cells. Think About This Why do you think larger organisms need more cells instead of just bigger cells? Record What You See Record which pond organisms were made of a single cell. Record w ...

Cells, Tissues, Organs, and Systems

...  Animals are made up of many kinds of cells.  You are made of blood cells, bone cells, skin cells, and many others.  A plant also has different cells in its roots, stems, and leaves. ...

Summary of Human systems Human Body Systems Overview

... Immune cells are made in the bone marrow and mature either in the bone marrow (B cells) or in the thymus gland (T cells). These cells are very specialized, with each type capable of recognizing one specific antigen (cell identification markers) and destroying that foreign cell. Other immune cells (m ...

Tissues- A group of similar cells that perform a common function.

... Tissues- A group of similar cells that perform a common function. Ch. 5 ...

Name Date ______ Midterm.Review.Fill

... The structure responsible for controlling what goes in and what goes out of the cell is the cell membrane. ...

Lecture Outline

... B. Complex animals exhibit levels of organization. 1. A tissue is an aggregation of cells and intercellular substances that function in one or more specialized activities (division of labor). 2. Various types of tissues can combine to form organs, such as the heart. 3. Organs may interact to form or ...

B. Digestive System

... experimental group in every way except one: it does not receive the treatment (i.e.: no drug, or given the original drug or a placebo). 3.__________________________________: A sugar pill or other “fake” treatment give to the control group so subjects do not know which group they are in. 4. _________ ...

Biology

... 57. The pancreas is not a part of the digestive tract. ______________ 58. The large intestine is the location of nutrient absorption. ______________ 59. Arteries always carry oxygenated blood. ______________ 60. Goblet cells secrete acid for digestion in the stomach. ______________ 61. The esophagus ...

Chapter 2 Cells to Systems

... Organs Work Together? Organs work together in organ systems to ...

1. The animals which possess backbones are a. Insects b. Birds c

... itself during cell division, this property is known as a. Addition ...

Cells

... organs are organized into organ systems for division of labour resulting in more effective and efficient functioning of the human body. The teacher is advised to make this principle clear to the students. Students are not expected to indulge in the study of the names of human organs. 2. The S4 Biolo ...

cells

... How does the oxygen get to the cells? • O2 enters the mouth or nose goes to the lungs, where it enters the alveoli, this is where O2 enters the blood stream(coming from the right ventricle) on its way back to the left atrium. • The alveoli are surrounded by capillaries where the O2 attaches to a re ...

Tissues and Membranes

... Electrical impulses produced in the heart cause cells to contract in unison Nervous tissue (Table 4-4) o Neurons—generate and carry electrochemical impulses o Has a direct role in almost every body function o 2 structural divisions CNS—brain and spinal cord • Neurons and neuroglial cells PNS—p ...

Cells_and_Chemical_Changes_Background_Info_

... cells work, how much energy a person has, and how an individual grows all depend on how food is selected, prepared, ingested, and digested. All plants and animals grow by reproducing cells. In large organisms such as people, the billions of cells perform many different roles. The cells combine to fo ...

Human Anatomy and Physiology

... blood by cells of the endocrine system (see Table 1–1) Hormones may act on many different cells simultaneously because they circulate throughout the body. ...

Immunity Power Point

... complement system is a group of enzymes in the plasma. The antigen-antibody complex activates these enzymes, which attack the antigenic material. ...

4 - Bulldogbiology.com

... 4. Anatomy and Physiology Broad Concept: There is a relationship between the organization of cells into tissues, and tissues into organs. The structure and function of organs determine their relationships within body systems of an organism. Homeostasis allows the body to perform its normal functions ...

Cell theory - Unidad Educativa Monte Tabor

... Scientists buy journals to find out what other scientists have done. One famous journal today is called Nature. Matthias Schleiden (1804-1881), ...

Animal Development, Organogenesis, and Animal Tissues

... vessels are forming. Anterior and posterior limb buds are fairly well developed, and will give rise to the wings and legs of the animal. ...

Levels of Organization Notes

... organism alive is divided (division) among the different parts of the body. Each part has a specific job to do and as each part does its special job, it works in harmony with all the other parts. The arrangement of specialized parts within a living thing is sometimes referred to as levels of organiz ...

Basic Structure of the Human Body

... 6. Reproduce to create new identical cells: reproduction ...

Stem cells

... reproduce to form new cells. This results in growth occurring all over the organism’s body giving a rounded shape. ...

< 1 ... 59 60 61 62 63 64 65 66 67 ... 80 >

Neuronal lineage marker

A Neuronal lineage marker is an endogenous tag that is expressed in different cells along neurogenesis and differentiated cells as neurons. It allows detection and identification of cells by using different techniques. A neuronal lineage marker can be either DNA, mRNA or RNA expressed in a cell of interest. It can also be a protein tag, as a partial protein, a protein or a epitope that discriminates between different cell types or different states of a common cell. An ideal marker is specific to a given cell type in normal conditions and/or during injury. Cell markers are very valuable tools for examining the function of cells in normal conditions as well as during disease. The discovery of various proteins specific to certain cells led to the production of cell-type-specific antibodies that have been used to identify cells.The techniques used for its detection can be immunohistochemistry, immunocytochemistry, methods that utilize transcriptional modulators and site-specific recombinases to label specific neuronal population, in situ hybridization or fluorescence in situ hybridization (FISH). A neuronal lineage marker can be a neuronal antigen that is recognized by an autoantibody for example Hu, which is highly restricted to neuronal nuclei. By immunohistochemistry, anti-Hu stains the nuclei of neurons. To localize mRNA in brain tissue, one can use a fragment of DNA or RNA as a neuronal lineage marker, a hybridization probe that detects the presence of nucleotide sequences that are complementary to the sequence in the probe. This technique is known as in situ hybridization. Its application have been carried out in all different tissues, but particularly useful in neuroscience. Using this technique, it is possible to locate gene expression to specific cell types in specific regions and observe how changes in this distribution occur throughout the development and correlate with the behavioral manipulations.Although immunohistochemistry is the staple methodology for identifying neuronal cell types, since it is relatively low in cost and a wide range of immunohistochemical markers are available to help distinguish the phenotype of cells in the brain, sometimes it is time-consuming to produce a good antibody. Therefore, one of the most convenient methods for the rapid assessment of the expression of a cloned ion channel could be in situ hybridization histochemistry.After cells are isolated from tissue or differentiated from pluripotent precursors, the resulting population needs to be characterized to confirm whether the target population has been obtained. Depending on the goal of a particular study, one can use neural stem cells markers, neural progenitor cell markers, neuron markers or PNS neuronal markers.

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Neuronal lineage marker