Cells - Galena Park ISD

... 6. I can identify the organelles that make up plant and animal cells. (cell wall, nucleus, cytoplasm, mitochondrion, chloroplast, and vacuole). 7. I can describe the function of the organelles that make up plant and animal cells. (cell wall, nucleus, cytoplasm, mitochondrion, chloroplast, and vacuol ...

Cell Structure

... 1. How many cm are in a m?  2. What is the difference between resolution and magnification?  3. What measurement system do scientists use?  4. Why can living cells not be viewed under an electron microscope?  5. The English scientist Robert Hooke used a crude microscope to examine these…. ...

Vocab 200 - SharpSchool

... nucleus, makes up the A) cytoplasm B) membranes C) vacuole D) mitochondria ...

Cell analogy Organizer

... **REMEMBER: the major product that cells make is PROTEIN—so whatever system you choose, you need to have a major product or something that comes out of that system (it doesn’t literally have to be a tangible/concrete object) ...

Thin Filaments - Mount Carmel Academy

... Cross Bridges on Myosin Filaments  Notice that the midparts of myosin filaments are ...

Animal and plant cells have a nucleus, cytoplasm, and a cell

... excretion – getting rid of liquid and gas wastes reproduction – making offspring growth – getting larger by cell division ...

Parts of the Cell

... • Convert sugar (glucose) into ATP (adenosine triphosphate)- small energy packets. This is called cellular respiration. • Have two membranes (inner and outer) ...

Animal and Plant Cells

... This is thicker, more rigid than wall than cell membrane. Made of cellulose. Serves as support for the cell. Formed on the exterior of the cell membrane. ...

what is a protist?

... ...

cell analogies collage

... "It takes 3 million cells to cover the head of a pin, but only one cell collage to cover 100 points of your grade!" 1. Select 15 of the following structures: (5 extra points if all 20 are correctly used) a. cell b. phospholipid membrane c. cell wall d. cytoplasm e. chloroplast f. chromatin g. centri ...

Visual PPT Quiz # 5

... of different groups. During the experiment, they kept the different groups of primrose plants at different but constant temperatures for twenty-four hours every day. They did the same for the corn and cucumber plants. The graph shows the growth rates that they recorded for the different groups of pl ...

cell membrane

... • DIFFUSION: A passive process (does not require energy) by which molecules of a substance move from an area of higher concentration to an area of lower concentration. • Diffusion ...

Cells

... • Bursting of red blood cells referred to as hemolysis ...

Power Plant City Plans Demolition Service City Border Postal

... surrounds the entire cell and holds it together. It separates the cell from everything that is outside of it. It is also controls what is able to pass into and out of the cell. ...

Cell City Introduction!

... Floating around in the cytoplasm are small structures called organelles. Like the organs in your own body, each one carries out a specific function necessary for the cell to survive. Imagine the cell as a miniature city. The organelles might represent companies, places or parts of the city because t ...

Fermoplus Omega 3 lett inglese.FH11

... The last researches highlighted that the polyunsaturated fatty acids are important for the maintenance of the entirety and for the functionality of the cellular membrane responsible for the selective exchange between cell and medium. Researches about functional biochemistry carried out by AEB Group ...

Cell City Analogy 2

... b. Why do you think so? 3. The endoplasmic reticulum consists of a network of tube-like passageways that proteins from the ribosomes are transported through. a. What company or place does the ER resemble in a Cell City? b. Why do you think so? 4. The ribosomes are small grain-like bodies made mostly ...

ﺟﺎﻣﻌﺔ اﻻﺳﮐﻧدرﯾﺔ ﮐﻟﯾﺔ اﻟطب Module (3): Introduction to Medical Sciences

... ‫جامعة االسكندرية‬ ‫كلية الطب‬ The full contents (Practical, Lectures& ILA of the Integrated curriculum Of the Histology Department 2014-2015 First Year ...

Nucleus

... • Location of protein production in the cell. • Small structure made of RNA and protein that is NOT membrane bound (no membrane). • Use the “recipe” written on DNA to make proteins. *Remember: DNA can’t leave the nucleus so RNA is the messenger. ...

As a group, make a rough draft blueprint of your cell city

... II. On a sheet of notebook paper, write the functions of all of the organelles drawn in your picture. You may use your textbook on CD, the textbook on the student shared drive, the internet, or your notes to find these functions. Staple this piece of paper to the front of the construction paper. (Th ...

Ch. 6 - Crestwood Local Schools

... is different. The proteins have specific orientations. Carbohydrates are found only on the outer surface. ...

Chapter Two Section Two

... Dye diffuses from a crowded (concentrated area) to a less concentrated area. Ch 4 Fig 1. ...

The Cell - oteroteacher

... BACK: (function) Mitochondria are rodshaped organelles that can be considered the power generators of the cell, converting oxygen and nutrients into adenosine triphosphate (ATP). ...

Chapter 4 The Cell and it`s Environment

... Passive transport • Passive transport - the cell plays no active role and does no work in moving the particles. Requires no Energy • 1. Water • 2. Lipids • 3. Substance soluble in lipids • 4. very small particles ...

1.2 Prokaryotic Eukaryotic

... By the end of today, SWBAT… Compare ...

< 1 ... 218 219 220 221 222 223 224 225 226 ... 393 >

Cytoplasmic streaming

Cytoplasmic streaming, also called protoplasmic streaming and cyclosis, is the directed flow of cytosol (the liquid component of the cytoplasm) and organelles around large fungal and plant cells through the mediation of actin. This movement aids in the delivery of organelles, nutrients, metabolites, genetic information, and other materials to all parts of the cell. Cytoplasmic streaming occurs along actin filaments in the cytoskeleton of the cell.Cytoplasmic streaming was first discovered in the 1830s. The scientific breakthrough assisted scientists in developing an understanding of the different roles of cells and how they function as the basic operating systems of life.This process occurs through the operation of motor proteins called myosins.These proteins use energy of adenosine triphosphate (ATP) to act as a molecular motor, which slides along actin filaments. This works in a manner that tows the organelles and other cytoplasmic contents in the same direction. Myosin proteins consist of two conjoined proteins. If one protein remains attached to the substrate, the substance acted upon by the protein, such as a microfilament, has the ability to move organelles through the cytoplasm.The green alga genus Chara and other genera in the Division Charophyta, such as Coleochaete, are thought to be the closest relatives of land plants. These haploid organisms contain some of the largest plant cells on earth, a single cell of which can reach up to 10 cm in length. The large size of these cells demands an efficient means to distribute resources, which is enabled via cytoplasmic streaming.Cytoplasmic streaming is strongly dependent upon intracellular pH and temperature. It has been observed that the effect of temperature on cytoplasmic streaming created linear variance and dependence at different high temperatures in comparison to low temperatures. This process is complicated, with temperature alterations in the system increasing its efficiency, with other factors such as the transport of ions across the membrane being simultaneously affected. This is due to cells homeostasis depending upon active transport which may be affected at some critical temperatures.In plant cells, chloroplasts may be moved around with the stream, possibly to a position of optimum light absorption for photosynthesis. The rate of motion is usually affected by light exposure, temperature, and pH levels.In reference to pH, because actin and myosin are both proteins, strong dependence on pH is expected. The optimal pH at which cytoplasmic streaming is highest, is achieved at neutral pH and decreases at both low and high pH.The flow of cytoplasm may be stopped by:Adding Lugol's iodine solutionAdding Cytochalasin D (dissolved in dimethyl sulfoxide)↑ ↑ ↑ ↑ ↑ ↑

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Cytoplasmic streaming