Endocrine Notes - Mr. Mendez
Endocrine Notes - Mr. Mendez

... a. Endocrine- Slow acting, releases chemical messengers (Hormones) in one place that travel through blood to another organ (target cell) with unique receptors . ...
Aug31-Sept11
Aug31-Sept11

... Living Things Project is Due Thursday. ...
Diffusion and Osmosis PowerPoint
Diffusion and Osmosis PowerPoint

... in pure water? ...
Mitosis
Mitosis

... • Growth (example: baby  adult) • Reproduction (asexual reproduction in single celled organisms) • Replacement of dead/damaged/infected (example: skin/red blood cells/bone cells) ...
File
File

... OiE ...
Biol 155 Human Physiology - University of British Columbia
Biol 155 Human Physiology - University of British Columbia

... The endocrine system regulates relatively slow, long-lived responses ...
Mitosis
Mitosis

... • Growth (example: baby  adult) • Reproduction (asexual reproduction in single celled organisms) • Replacement of dead/damaged/infected (example: skin/red blood cells/bone cells) ...
Lecture Presentation- Powerpoint
Lecture Presentation- Powerpoint

... Key Concepts 6.1 To study cells, biologists use microscopes and the tools of biochemistry. 6.2 Eukaryotic cells have internal membranes that compartmentalize their functions, and membrane bound organelles. 6.3 The Eukaryotic cell’s genetic instructions are found in the nucleus and carried out by th ...
transport across the membrane
transport across the membrane

... • movement of molecules by diffusion requires no energy to be added (although adding energy (i.e. heat) will speed it up). • is a slow process - diffusion in liquid is slower than in gas Three Ways of increasing the rate of diffusion: 1. increase the temperature  Membrane and Transport Notes.doc ...
Diffusion & Osmosis
Diffusion & Osmosis

... from an area of higher concentration to an area of lesser concentration.  Osmosis is the movement of water thru a semi permeable membrane.  Active transport requires energy. (molecules move from an area of lesser to higher concentration)  Passive transport needs NO ENERGY! (molecules move from an ...
Presentation
Presentation

... EUKARYOTIC means possessing a true nucleus ...
The Cell Theory - North Allegheny
The Cell Theory - North Allegheny

... environment, transforming energy, and reproducing. ...
Cell cycle - Instructure
Cell cycle - Instructure

... Arrest the cell cycle at a discrete point Screening1,500,000 colonies yields cdc mutants in 32 genes Combining these mutants produces a logical map of the cell cycle Some events depend on each other Mitosis depends on finishing replication and spindle pole body duplication Mitosis and DNA replicatio ...
System Introduction to Sensory Physiology: Sensory- Motor
System Introduction to Sensory Physiology: Sensory- Motor

... 2) MRO1- slow adaptation- IK (Ca), Na/K pump! 3) MRO1 and MRO2 have similar generator potentials! 4) MRO2 adapts more quickly to depolarization! ...
The Cell Membrane
The Cell Membrane

... Osmosis is diffusion of water  Water is very important to life, so we talk about water separately  Diffusion of water from high concentration of water to low concentration of water ...
Abstract The possible role of glycosphingolipids as adhesion
Abstract The possible role of glycosphingolipids as adhesion

... fatty acids was detected, whereas lactosylceramide having sphingosine and nonhydroxy fatty acids was consistently nonbinding. A selective binding of H. pylori to lactosylceramide with phytosphingosine and 2-D hydroxy fatty acid was obtained when the different lactosylceramide species were incorporat ...
1.2 Ultrastructure of cells
1.2 Ultrastructure of cells

... Made of a murein (not cellulose), which is a glycoprotein or peptidoglycan (i.e. a protein/carbohydrate complex). There are two kinds of bacterial cell wall, which are identified by the Gram Stain technique when observed under the microscope. Gram positive bacteria stain purple, while Gram negative ...
Biology Reporting Category 1: Cell Structure and Function
Biology Reporting Category 1: Cell Structure and Function

... organelles are anchored to this network to form cytoskeleton. Work together in muscle contractions and the motion of cilia and flagella ...
Ch. 12 Nervous Tissue
Ch. 12 Nervous Tissue

... – No stimulus of any strength will stimulate a new action potential ...
Organelles PowerPoint
Organelles PowerPoint

... • Made of cellulose • Rigid, strong, stiff structure • Location: Surrounds cell membrane (only in plants) • Allows H2O, O2, CO2 to pass into and out of cell • Function: Support & protection ...
Antibody Sampler Kit MAP Kinase Activation
Antibody Sampler Kit MAP Kinase Activation

... Mitogen-activated protein kinases (MAPKs) are a widely conserved family of serine/threonine protein kinases that include three major MAPKs: p38, JNK, and ERK. These MAPKs are involved in many cellular programs such as cell proliferation, differentiation, motility, and death. Upon stimulation, the MA ...
Figure: Treatment with TNFa increases expression
Figure: Treatment with TNFa increases expression

... extent to which an important upstream regulatory protein is phosphorylated. The CASE Kits include a complete antibody-based detection system for determining the ratio between the amount of the phosphorylated form of a specific protein and the total amount of the same protein. As a signal transducti ...
Document
Document

... Steinberg Thermodynamic Differential Cell Adhesion Model ...
week4am
week4am

... see depolarization (change from negative inside neuron to more positive) ◦ “threshold” – if a great enough depolarization occurs, an action potential will occur ◦ action potential – very quick – milliseconds  Other terms – spike, firing, generating an AP ...
CHAPTER NINE: THE NERVOUS SYSTEM
CHAPTER NINE: THE NERVOUS SYSTEM

... neurotransmitters ii. Composed of two parts 1. ________ terminal of the presynaptic neuron 2. ___________ region on the postsynaptic neuron g. Synaptic cleft i. Fluid-filled space separating the presynaptic and postsynaptic neurons ii. Prevents nerve impulses from ___________ passing from one neuron ...

Signal transduction



Signal transduction occurs when an extracellular signaling molecule activates a specific receptor located on the cell surface or inside the cell. In turn, this receptor triggers a biochemical chain of events inside the cell, creating a response. Depending on the cell, the response alters the cell's metabolism, shape, gene expression, or ability to divide. The signal can be amplified at any step. Thus, one signaling molecule can cause many responses.