Name

... 9. Explain the function of each half of the heart: Right half: _______________________________________ Left half: ________________________________________ 10. What is a heart valve? ______________________________________ 11. What is the difference between an artery and a vein? 12. What are “systemic ...

Cell Cycle

... Interphase: Growth Phase This is the period where the cell grows and prepares for division. It is divided into three parts: ◦ G1: The cell grows ◦ S: The cell replicates its chromosomes (DNA). ◦ G2: The cell replicates its organelles and prepares for division. ...

high-power objective

... (Can usually find ribosomes on this network.) ENDOPLASMIC _______________ RETICULUM _______________ ...

Chapter 19: Cell junctions and the extracellular matrix

... Spun directly from cell membranes by a surface enzyme complex Attracts water and fills spaces between cells with non-compressible gel (found around joints) Some cells secrete it to isolate themselves from other cells (e.g. myoblasts). These cells can secrete hyaluronidase to break it down, allowing ...

Physiology - Loveland Schools

... cells that determine the characteristics of the organism. 2. Explain why specialized cells/structures are useful to plants and animals (e.g., stoma, phloem, xylem, blood, nerve, muscle, egg and sperm). 4. Explain that carbon-containing molecules can be used to assemble larger molecules with biologic ...

6.2 Sexual Reproduction

... make a layer between the inner and outer layer. Now the embryo has three cell layers. The middle layer is called mesoderm, the outer layer is called ectoderm and the inner layer is called endoderm. ...

tendons

... When the researchers implanted these cells into torn Achilles tendons of rats they found that the cells not only survived the implantation process, but also were recruited to the site of the injury and were able to repair the tendon. The cells changed their appearance to look more like tendon cells ...

Chapter 13: Vesicular Traffic

... Spun directly from cell membranes by a surface enzyme complex Attracts water and fills spaces between cells with non-compressible gel (found around joints) Some cells secrete it to isolate themselves from other cells (e.g. myoblasts). These cells can secrete hyaluronidase to break it down, allowing ...

Kedudukan anatomi tumbuhan

... cell is the structural and functional unit of all known living organisms. It is the smallest unit of an organism that is classified as living, and is often called the building block of life. Some organisms, such as most bacteria, are unicellular (consist of a single cell). Other organisms, such as h ...

B3 REVISION – Blood and Treatment of Heart Conditions

... What is the name for the movement of water up the vessel? What factors could be changed to change the rate of What causes the movement of water up the plant? ...

Structural view of bacteria (2)

... Type I and type III secrete proteins across both the inner membrane and the cell envelope (outer membrane) in one step; secreted proteins do not make an intermediate stop in the periplasm. Type I systems are composed of far fewer components than type III systems. ...

Cell Biology

... 1. Osmosis is best defined as the movement of A) molecules from an area of high concentration to an area of lower concentration B) molecules from an area of low concentration to an area of higher concentration C) water molecules across a membrane from an area of low water concentration to an area of ...

chapt51_lecture_ppt

... Evolution of the Vertebrate Kidney • Mammals and birds are the only vertebrates that can produce urine that is hypertonic to body fluids • Accomplished by the loop of Henle • Birds have relatively few or no nephrons with long loops, and so cannot produce urine as concentrated as that of mammals • M ...

Figure S1: Confirmation of IRGM1 palmitoylation. HEK293T cells

... Figure S2: Ingenuity pathway analysis of palmitoylated proteins identified in both DC2.4 cells and MEFs. A) Function classification of the 121 palmitoylated proteins identified in both cell types. B) Known cancer regulatory proteins, MYC and TP53, are upstream of 29% of the 121 proteins identified i ...

Body Systems

... Smooth muscle is found in the digestive system T F The heart has _____ chambers The respiratory system starts in the _______ and ends in the _______ What are the names of the two nervous systems The urinary system helps the body to eliminate waste ...

Cell Structure Notes

... "Powerhouse of the cell" - cellular metabolism  Structure- outer and inner membranes, cristae  Found in both plant and animal cells  Very active cells have more mitochondria ...

Bio Sem I review

... This is in no way supposed to replace your study of the chapters. It should be a supplement. There is much more to consider when studying for the state exam. Hopefully, this list will get you thinking and motivated to review further. ...

Click4Biology: 2.1 Cell Theory

... the notion that life takes cellular form and that it is possible to define the exact boundary between living and non-living. There are scientist who suggest that too much importance is attached to the resolution of the question and that the definition of 'life' is of little value. ...

Marine Natural Products with Potential as Treatments for Pancreatic

... Harbor Branch Oceanographic Institute at FAU ...

Co-ordination

... upwards. ...

8_BodyTissues - Clinton Public Schools

... • Stomach, heart, skin • Stems, roots ...

42A Closer Look - AMA-Science

... seen with a light microscope. Some of the jobs performed by these organelles include obtaining and storing energy, helping cells move and divide, and making substances that are either used in the cell or transported to other parts of the body. The organelles that produce energy are called mitochondr ...

the crawford cell in bioelectromagnetic studies - COST EMF-MED

... factor at the output of the cell (Γ2) versus its electrical length (lc/λ) for the case while an input voltage of the cell is measured and field uniformity in the cell at the level of 2.5% and 5% is required. Results of estimations are presented in Fig.1. ...

Question 17

... B) all cells are surrounded by cell walls that protect them. C) all organisms are made up of many cells arranged in specialized, functional groups. D) all cells are made of smaller subunits called organelles. Nothing smaller than an organelle is considered alive. Question 2 The plasma membrane A) is ...

Vrije Universiteit Brussel IOF Knowledge Center

... Potentially applicable and transferable know how with economic value The goal is to generate beta cell therapeutics for use in early and late phases of the disease. To this end the following products and tools are developed: • novel diagnostics that monitor the disease process and the effects of int ...

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Organ-on-a-chip

An organ-on-a-chip (OC) is a multi-channel 3-D microfluidic cell culture chip that simulates the activities, mechanics and physiological response of entire organs and organ systems. It constitutes the subject matter of significant biomedical engineering research, more precisely in bio-MEMS. The convergence of labs-on-chips (LOCs) and cell biology has permitted the study of human physiology in an organ-specific context, introducing a novel model of in vitro multicellular human organisms. One day, they will perhaps abolish the need for animals in drug development and toxin testing.Although multiple publications claim to have translated organ functions onto this interface, the movement towards this microfluidic application is still in its infancy. Organs-on-chips will vary in design and approach between different researchers. As such, validation and optimization of these systems will likely be a long process. Organs that have been simulated by microfluidic devices include the heart, the lung, kidney, artery, bone, cartilage, skin and more.Nevertheless, building valid artificial organs requires not only a precise cellular manipulation, but a detailed understanding of the human body’s fundamental intricate response to any event. A common concern with organs-on-chips lies in the isolation of organs during testing. ""If you don’t use as close to the total physiological system that you can, you’re likely to run into troubles"" says William Haseltine, founder of Rockville, Maryland. Microfabrication, microelectronics and microfluidics offer the prospect of modeling sophisticated in vitro physiological responses under accurately simulated conditions.

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Organ-on-a-chip