Supplementary Information (doc 30K)

... Fig. S1. Western blot analysis in HEp2 for stable USP7 depletion and HEp2 or H1299 cells to compare expression of p53, Daxx and USP7. (A) Western blot representing USP7 depletion in HEp2 cells stably depleted by control or USP7 shRNAs. (B) Western blot analysis of p53, Daxx and USP7 in HEp2 and H129 ...

Lesson Overview

... What are stem cells? The unspecialized cells from which differentiated cells develop are known as stem cells. One of the most important questions in biology is how all of the specialized, differentiated cell types in the body are formed from just a single cell. Biologists say that such a cell is tot ...

Chapter 4: Tour of the Cell

... MEMBRANE STRUCTURE AND FUNCTION ...

Active Transport

... Energy is required because molecules are being pumped against their concentration gradient Proteins that work as pumps are called protein pumps. These protein pumps are membrane bound receptors. ...

THE CELL

... Organelles that contain digestive enzymes which break down large particles for removal from the cell ...

organelle notes

... Cell walls are like our classroom walls. They protect what is inside and help give structure to the physical shape of the room. ...

Mitosis and the Cell Cycle

... division. The resulting cells become immortal and no longer carry out their functional role. Two types of gene are normally involved in controlling the cell cycle - proto-oncogenes, which start the cell division process and are essential for normal cell development, and tumor-suppressor genes, which ...

Cell Analogy Rubric

... CELL ORGANELLE ANALOGY PROJECT Using the diagrams from your notebook, you will create a ½ poster-sized drawing of an animal or plant cell and label its organelles (see details below). Next to each label (organelle) you will provide a picture and your analogy to the cell part. You must explain how yo ...

lecture notes-microbiology-1

Cell Determination and Differentiation

... zygote to a many-celled mature organism, there must be many rounds of cell division, or mitosis. However, if zygotes only divided over and over to produce many cells, we would end up as big clumps of zygotes, rather than organisms with clearly defined parts, such as tissues and organs. There must be ...

Membranes of Living Organisms Outline

... Active transport occurs against a concentration gradient. Active Transport proteins that move molecules = Pumps Transport protein ...

3.5 Reinforcement

... molecule called ATP. A cell may use this energy directly or indirectly. • The sodium-potassium pump directly uses energy from the breakdown of ATP to pump two potassium ions into a cell for every three sodium ions it removes from the cell. • The proton pump indirectly uses energy from the breakdown ...

Snímek 1

... using metal-based drugs. After successes achieved with platinum-based drugs, such as cis-platin, against many types of cancers. Using of platinum-based drugs were associated with serious clinical problems, such as tissue toxicity and drug resistance. This is the main reason to search new metal-compu ...

HONORS BIOLOGY PLASMOLYSIS LAB INTRODUCTION:

... Prepare a wet mount of a single Elodea leaf and a drop of water. Observe under 400x magnification. Sketch and describe the appearance of the leaf cells. (In sketches of microscope images, you must note the magnification in the drawing and draw the image to scale as compared to the field.) Elodea lea ...

TOpic 2 Revision - REVISION-IB2

... ii. No. They are both haploid cells/one is a female gamete the other the male gamete 32. a.i. Phospholipid ii. Head hydrophilic, Tail hydrophobic. 33. a. Mitosis is when the chromosome divide. Cytokinesis is when the cytoplasm divides. ...

SNAB Topic 6 Test File

... Salters-Nuffield Advanced Biology, Pearson Education Ltd 2009. © University of York Science Education Group. This sheet may have been altered from the original. ...

The Basics of Cell Biology

... Eukaryotic cell = complex cell with cell organs, such as a nucleus (e.g. multicellular organisms such as animals, and complex single celled organisms like protozoa) ...

Cell Transport (Diffusion and Osmosis)

... Two Kinds of Transport: • 1. Passive (Diffusion): materials move from regions of higher concentration to regions of lower concentration, without energy expenditure by the cell. • 2. Active: movement of substances against concentration gradients (from low to high), requiring the expenditure of energ ...

Cell powerpoint

... Cell walls are made of cellulose they are a feature of a plant cell. The cell wall is ridged and strong. The fibers of a cell wall are laid down in different directions to add strength to the cell. Cell walls contain other substances making a tough matrix. There is a “glue” between the cell walls of ...

“Molecular” pathogenesis of normal tissue responses to therapeutic

... radiation are classified as early or late, according to their first diagnosis either within or after the first 90 days after the onset of the radiotherapy protocol, respectively. Early reactions are typically seen in proliferating “turnover” tissues. In these tissues, a continuous physiological cell ...

HB Cell Structure

... MITOCHONDRIA Energy is used to form ATP molecules which is used for protein synthesis and transport ATP-molecule is able to store and transport energy for short periods of time ...

HONORS BIOLOGY PLASMOLYSIS LAB INTRODUCTION:

... Your favorite potted plant used to be the envy of the neighborhood. It was lush and green. Lately, however, it has begun to look pathetic (not lush and not green). You have been doing what you have always done. You watered it from the hose and added fertilizer according to the directions. Why is it, ...

LAB ASSIGNMENT 1

... NAME: _____________________________ LAB ASSIGNMENT 1 Due at the start of Lab on July 8 ...

Methods of Cell Transport, Such As Diffusion, Osmosis, and Active

... Diffusion is the passing of a substance from a region of high concentration of the substance to a region of low concentration of the substance until equilibrium of the substance is achieved. This is a passive process that does not require an energy input. ...

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Cell encapsulation

Cell microencapsulation technology involves immobilization of the cells within a polymeric semi-permeable membrane that permits the bidirectional diffusion of molecules such as the influx of oxygen, nutrients, growth factors etc. essential for cell metabolism and the outward diffusion of waste products and therapeutic proteins. At the same time, the semi-permeable nature of the membrane prevents immune cells and antibodies from destroying the encapsulated cells regarding them as foreign invaders.The main motive of cell encapsulation technology is to overcome the existing problem of graft rejection in tissue engineering applications and thus reduce the need for long-term use of immunosuppressive drugs after an organ transplant to control side effects.

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Cell encapsulation