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Hazardous Materials Investigators should contact the Office of Research (213) 563-5990 whenever hazardous materials (e.g., infectious agents, toxins, mutagens, carcinogens, explosive chemicals) or procedures will be used.
Radiation, chemicals, and infectious agents are types of mutagens.
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Investigators outside those Colleges should contact the Office of Environmental Health and Safety (255-8200) whenever hazardous materials (e.g., infectious agents, toxins, mutagens, carcinogens, explosive chemicals) or procedures will be used.
Radiation, chemicals, and infectious agents are types of mutagens.
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Types of mutagens include radiation, chemicals, and infectious agents.
Radiation, chemicals, and infectious agents are types of mutagens.
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Energy Radiation Radioactive atom (Stable atom) Particles How fast an isotope decays into a stable element depends on the element itself.
Radioactive decay can give off energy and particles.
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If a radioactive particle becomes lodged within the living matter, it could decay further releasing other high energy particles which could do more damage.
Radioactive decay can give off energy and particles.
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Radioactive decay is the process in which an unstable atomic nucleus loses energy by emitting ionizing particles and radiation.
Radioactive decay can give off energy and particles.
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Types of Radioactive Decay When unstable nuclei decay, the reactions generally involve the emission of a particle and or energy.
Radioactive decay can give off energy and particles.
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Wolfgang Pauli first proposed the existence of the neutrino in 1930 to explain an apparent nonconservation of energy when radioactive particles decayed.
Radioactive decay can give off energy and particles.
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A highly reactive element reacts very easily, maybe even violently, with lots of other elements or compounds.
Reactive elements are able to combine more easily with other elements.
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Behavior easily combines unlike elements.
Reactive elements are able to combine more easily with other elements.
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By combining herbs that are a source of natural iron with other elements needed to enhance absorption, a chelated form of iron is created which is more easily absorbed by the body.
Reactive elements are able to combine more easily with other elements.
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Helium is an inert gas and does not easily combine with other elements.
Reactive elements are able to combine more easily with other elements.
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It is a good tracer for this process as it is more easily observed than other potential elements.
Reactive elements are able to combine more easily with other elements.
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It is the lightest of all gases, and combines easily with other elements to form compounds.
Reactive elements are able to combine more easily with other elements.
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It is uncommon only because it combines so easily with other common elements.
Reactive elements are able to combine more easily with other elements.
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On the other hand, there are several elements that are more easily seen from a wheelchair.
Reactive elements are able to combine more easily with other elements.
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Other metals are highly reactive and combine easily with other elements, such as oxygen.
Reactive elements are able to combine more easily with other elements.
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Other surfaces should be able to withstand the elements and be easily maintained.
Reactive elements are able to combine more easily with other elements.
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That is why it does not easily combine with other elements.
Reactive elements are able to combine more easily with other elements.
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The cursor is now sensitive to element edges, so you can more easily fit elements to each other in the 3D model.
Reactive elements are able to combine more easily with other elements.
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They do not easily react or combine with other elements.
Reactive elements are able to combine more easily with other elements.
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This element should be implement-ed after most of the other, more easily implemented elements are in place.
Reactive elements are able to combine more easily with other elements.
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With this rule the parser will be able to recognize easily element content.
Reactive elements are able to combine more easily with other elements.
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Xenon is an "inert" element, which means it doesn't combine with other elements easily (if at all).
Reactive elements are able to combine more easily with other elements.
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all the groups needed to work in parallel, and one group needed to be able to easily combine all the elements.
Reactive elements are able to combine more easily with other elements.
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Groups of Hormones Plant hormones are chemical messengers that affect a plant's ability to respond to its environment.
Receptors for hormones recognize molecules with specific shapes and side groups, and respond only to those that are recognized.
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Hormones act as chemical messengers, traveling through the blood to distant tissues and organs, where they can bind to specific cell sites called receptors.
Receptors for hormones recognize molecules with specific shapes and side groups, and respond only to those that are recognized.
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When the body's hormone receptors recognize the contaminant as estrogen, they respond as they would to the hormone, resulting in feminization of the affected organism.
Receptors for hormones recognize molecules with specific shapes and side groups, and respond only to those that are recognized.
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Amedeo Avagadro proposed, on the other hand, that equal volumes of (gaseous) molecules at the same temperature and pressure contain equal numbers of molecules.
Reducing the number of molecules in a rigid container causes pressure to decrease.
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As air pressure (the number of molecules) is reduced, it is easier to boil water.
Reducing the number of molecules in a rigid container causes pressure to decrease.
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As the spool moves upward, it restricts the flow through opening 7 and causes the pressure to decrease in the reduced pressure outlet port 6.
Reducing the number of molecules in a rigid container causes pressure to decrease.
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Because the skull is a rigid container, this swelling may cause increased pressure on the brain.
Reducing the number of molecules in a rigid container causes pressure to decrease.
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Constriction of the afferent arterioles causes a decrease in the intraglomerular pressure, reducing GFR proportionally.
Reducing the number of molecules in a rigid container causes pressure to decrease.
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Decrease blood pressure and reduce stress Dogs have been shown to reduce blood pressure in a number of populations.
Reducing the number of molecules in a rigid container causes pressure to decrease.
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For example, if one heats a rigid container filled with a gas, that causes the pressure of the gas in the container to increase.
Reducing the number of molecules in a rigid container causes pressure to decrease.
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His hypothesis stated that equal volumes of gases, at the same temperature and pressure, contain an equal number of molecules (1811).
Reducing the number of molecules in a rigid container causes pressure to decrease.
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Intraocular pressure decreased with LASIK, but the cause of the decrease is unknown.
Reducing the number of molecules in a rigid container causes pressure to decrease.
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It is important to remember to avoid positive pressure ventilation during intense truncal rigidity because further increases in intrathoracic pressure decrease venous return and thereby may reduce cardiac output and blood pressure.
Reducing the number of molecules in a rigid container causes pressure to decrease.
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It lowers blood pressure, slows the heart rate, reduces pain, boosts the immune system and decreases the hormones that cause stress.
Reducing the number of molecules in a rigid container causes pressure to decrease.
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Pressure is reduced back to atmospheric pressure, and temperature is decreased back to room temperature, and this causes air permeation into the beads.
Reducing the number of molecules in a rigid container causes pressure to decrease.
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Pressure with Height pressure decreases with increasing altitude The number of air molecules above a surface changes as the height of the surface above the ground changes.
Reducing the number of molecules in a rigid container causes pressure to decrease.
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Protein acts like a sponge, and as it decreases in the body, osmotic pressure decreases, causing water to be absorbed and retained in protein molecules.
Reducing the number of molecules in a rigid container causes pressure to decrease.
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Pulling up on the plunger decreased the air pressure inside the flask causing the water molecules to condense onto the smoke particles (condensation particles).
Reducing the number of molecules in a rigid container causes pressure to decrease.
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Reduced absorption can be caused by decreased plasma oncotic pressure, increased oncotic pressure of tissue fluid, and lymphatic obstruction.
Reducing the number of molecules in a rigid container causes pressure to decrease.
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So when water molecules (vapor) are introduced into that volume of dry air, the number of air molecules in the volume must decrease by the same number, if the temperature and pressure remain constant.
Reducing the number of molecules in a rigid container causes pressure to decrease.
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The decrease in mean arterial blood pressure was caused by a vasodilation and not by a reduced cardiac output.
Reducing the number of molecules in a rigid container causes pressure to decrease.
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The decrease in the number of gas molecules lowers the pressure inside the bottle because pressure is directly proportional to the number of gas molecules.
Reducing the number of molecules in a rigid container causes pressure to decrease.
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The solution contains molecules that are to be inserted into cells, such as DNA plasmids or siRNA, and transfer of these molecules into cells is assisted by the elevated hydrostatic pressure caused by the high volume of injected solution.
Reducing the number of molecules in a rigid container causes pressure to decrease.
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This causes blood pressure and volume to decrease.
Reducing the number of molecules in a rigid container causes pressure to decrease.
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This causes the molecules to collide with the container walls with greater force and frequency, and thus pressure increases.
Reducing the number of molecules in a rigid container causes pressure to decrease.
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This heat loss causes the high-pressure gas to condense to liquid, as motion of the Freon molecules decreases and intermolecular attractions are formed.
Reducing the number of molecules in a rigid container causes pressure to decrease.
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This law describes how, under the same condition of temperature and pressure, equal volumes of all gases contain the same number of molecules.
Reducing the number of molecules in a rigid container causes pressure to decrease.
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This was before the idea of molecules was developed, and we would now say that equal volumes of gas at the same temperature and pressure contain equal numbers of molecules.
Reducing the number of molecules in a rigid container causes pressure to decrease.
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Vapor pressure decreases as salinity increases because salt ions reduce the evaporation of water molecules.
Reducing the number of molecules in a rigid container causes pressure to decrease.
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When a solute is dissolved in a solvent, the number of solvent molecules near the surface decreases, and the vapor pressure of the solvent decreases.
Reducing the number of molecules in a rigid container causes pressure to decrease.
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An ion that has lost electrons will have a positive charge.
Remember electrons are negatively charged, so ions with a positive charge have lost a(n) electron.
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Because each electron has a negative charge, the gain of electrons creates a negative ion and the loss of electrons creates a positive ion .
Remember electrons are negatively charged, so ions with a positive charge have lost a(n) electron.
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Because electrons have a negative charge, atoms stripped of them become positively charged ions.
Remember electrons are negatively charged, so ions with a positive charge have lost a(n) electron.
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Electrons have a negative charge.
Remember electrons are negatively charged, so ions with a positive charge have lost a(n) electron.
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If it loses one or more electrons, it becomes a positively charged ion.
Remember electrons are negatively charged, so ions with a positive charge have lost a(n) electron.
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This causes each molecule to lose an electron, forming a positively charged molecular ion.
Remember electrons are negatively charged, so ions with a positive charge have lost a(n) electron.
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electrons and positively charged ions.
Remember electrons are negatively charged, so ions with a positive charge have lost a(n) electron.
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Asexual reproduction by binary fission.
Reproduction in prokaryotic cells is by binary fission, enlargement and division.
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Asexual reproduction of protozoans occurs when the cell divides in half by binary fission.
Reproduction in prokaryotic cells is by binary fission, enlargement and division.
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Bacterial growth is the asexual reproduction , or cell division , of a bacterium into two daughter cells, in a process called binary fission .
Reproduction in prokaryotic cells is by binary fission, enlargement and division.
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Bacterial growth is the division of one bacterium into two daughter cells in a process called binary fission .
Reproduction in prokaryotic cells is by binary fission, enlargement and division.
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Binary Fission is the process of rapid cell division.
Reproduction in prokaryotic cells is by binary fission, enlargement and division.
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Chapter 14 Cellular Reproduction Biology 107 Lecture Notes Meiosis and Mitosis in eukaryotes, fission in prokaryotes How Bacteria Grow Factors that influence bacterial cell division.
Reproduction in prokaryotic cells is by binary fission, enlargement and division.
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Giardia reproduce by a process of cell division (called binary fission).
Reproduction in prokaryotic cells is by binary fission, enlargement and division.
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Microbial Growth Discuss the process of binary fission.
Reproduction in prokaryotic cells is by binary fission, enlargement and division.
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Prokaryotes reproduce through a cell division process called binary fission.
Reproduction in prokaryotic cells is by binary fission, enlargement and division.
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Prokaryotic cells reproduce by a process that is called binary fission.
Reproduction in prokaryotic cells is by binary fission, enlargement and division.
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Prokaryotic cells such as bacterial cells reproduce by binary fission , a process that includes DNA replication, chromosome segregation, and cytokinesis.
Reproduction in prokaryotic cells is by binary fission, enlargement and division.
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Reproduction is by simple binary fission.
Reproduction in prokaryotic cells is by binary fission, enlargement and division.
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They grow by the process of binary fission which is an asexualy reproduction of cells such as those that all protists have.
Reproduction in prokaryotic cells is by binary fission, enlargement and division.
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Connect the ammeter in series with the light and resistor.
Resistors connected end to end are said to be in series.
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If it is at the amplifier-end of the cable, it is probably either a parallel resistor-inductor network, connected in series with the cable conductors (or a simple cylindrical ferrite sleeve covering both conductors).
Resistors connected end to end are said to be in series.
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It was a series of rooms, breezeways, and sheds connected end to end.
Resistors connected end to end are said to be in series.
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My preference was to reduce the range of the RIT circuit by placing a 22 K resistor in series with the high end of the RIT pot and a 10 K resistor in series with the low end.
Resistors connected end to end are said to be in series.
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Next install a 1500 W series resistor at the PG end.
Resistors connected end to end are said to be in series.
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Resistor Values for a Voltage Divider A voltage divider is two resistors in series (R1 & R2), one end connected to a voltage source (V Plus), and the other end connected to ground (0 Volts).
Resistors connected end to end are said to be in series.
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Resistors joined end to end, so that the current only has one path along which it may travel, are said to be connected in series.
Resistors connected end to end are said to be in series.
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Resistors joined end to end, so that the current only has one path along which it may travel, are said to be connected in series.  For the circuit segment shown below the potential difference between points A and B is V.
Resistors connected end to end are said to be in series.
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Slap a single supply on the IC, connect your RF single-ended through scaling (an attenuator, usually) and a series capacitor, and pick off your dc level from the top of a pull-down resistor.
Resistors connected end to end are said to be in series.
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Solder a 1K resistor in series with BINH and plug the other end of the resistor into pin 1 of IC15,16.
Resistors connected end to end are said to be in series.
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The function generator should then be connected across the RC series combination, making sure that the ground of the function generator is connected to the open end of the resistor, and the signal lead to the open end of the capacitor.
Resistors connected end to end are said to be in series.
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This can be achieved by using a series of damping resistors at the end of clock and control lines.
Resistors connected end to end are said to be in series.
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All amino acids are organic compounds that contain carbon, hydrogen, oxygen, and nitrogen.
Rna and dna are types of nucleic acids containing the elements carbon, hydrogen, oxygen, nitrogen, and phosphorus.
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All amino acids contain carbon, hydrogen, oxygen, and nitrogen.
Rna and dna are types of nucleic acids containing the elements carbon, hydrogen, oxygen, nitrogen, and phosphorus.
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Amino acids are compounds containing carbon, hydrogen, oxygen, nitrogen, and occasionally sulphur.
Rna and dna are types of nucleic acids containing the elements carbon, hydrogen, oxygen, nitrogen, and phosphorus.
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Amino acids contain carbon, hydrogen, oxygen, and nitrogen.
Rna and dna are types of nucleic acids containing the elements carbon, hydrogen, oxygen, nitrogen, and phosphorus.
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Amino acids contain carbon, hydrogen, oxygen, nitrogen, and sometimes sulfur.
Rna and dna are types of nucleic acids containing the elements carbon, hydrogen, oxygen, nitrogen, and phosphorus.
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Amino acids contain primarily carbon, hydrogen, oxygen and nitrogen atoms.
Rna and dna are types of nucleic acids containing the elements carbon, hydrogen, oxygen, nitrogen, and phosphorus.
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Ammonia, methane and hydrogen are necessary to provide carbon, nitrogen, hydrogen and oxygen which are found in the amino acids the proteins and the nucleic acids, the building blocks of the living organisms.
Rna and dna are types of nucleic acids containing the elements carbon, hydrogen, oxygen, nitrogen, and phosphorus.
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Fatty acids are organic compounds containing carbon, hydrogen and oxygen.
Rna and dna are types of nucleic acids containing the elements carbon, hydrogen, oxygen, nitrogen, and phosphorus.
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Nucleic Acids (DNA and RNA) are composed of carbon (C), hydrogen (H), oxygen (O), nitrogen (N), and phosphorus (P).
Rna and dna are types of nucleic acids containing the elements carbon, hydrogen, oxygen, nitrogen, and phosphorus.
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Protein amino acid contains carbon, hydrogen, oxygen and nitrogen.
Rna and dna are types of nucleic acids containing the elements carbon, hydrogen, oxygen, nitrogen, and phosphorus.
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into organic carbon compounds contain carbon atoms bonded to hydrogen atoms and possibly other elements such as nitrogen or phosphorous; examples include proteins, carbohydrates, nucleic acids and fats, oils and waxes.
Rna and dna are types of nucleic acids containing the elements carbon, hydrogen, oxygen, nitrogen, and phosphorus.
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liquid water, the so called CHNOPS (carbon, hydrogen, nitrogen, oxygen, phosphorous and sulfur) are the main elements which constitute amino acids (which make up proteins) and nucleotides (which make up DNA and RNA) and various minerals are also required.
Rna and dna are types of nucleic acids containing the elements carbon, hydrogen, oxygen, nitrogen, and phosphorus.
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Amino acids are chemical compounds containing nitrogen , carbon, oxygen, and hydrogen in distinct arrangements.
Rna and dna are types of nucleic acids containing the elements carbon, hydrogen, oxygen, nitrogen, and phosphorus.
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