All living things must remain in balance, or equilibrium, also known as homeostasis. Our bodies maintain a balance of many things such as temperature. If we are too hot we sweat and if we are too cold we shiver. Our temperature must remain in equilibrium.
Even larger collections of living things like ecosystems must be in balance too. An ecosystem is a collection of living and non-living things in an area. There are lots of types of ecosystems we already know, such as a forest or a meadow. Any collection of living and non-living things in an area is an ecosystem, even a small ecosystem like your backyard.
Resources are plenty and predator and prey relationships are healthy. No competition for resources.
Answer:
the ecosystem is "Balanced"
Explanation:
Natural ecosystems are often incredibly sensitive to change, such as the introduction or removal of a species. A healthy ecosystem is said to be in equilibrium, which is a relatively stable state that keeps population sizes within a sustainable range (not too many of a certain species alive or dead). Consider the case of bears (who only eat fish) and salmon (who are only hunted by bears):
As the sun shines on Earth, plants use its energy to complete the process of photosynthesis. Energy is transformed during the process into chemical energy in the form of sugars, such as carbohydrates. However, the energy available for top consumers is much less than that produced by autotrophs. Why is this so?
Answer:
Most of the energy is used up in metabolism
Explanation:
What are the effect of a greater number of cysteine amino acids on the stability of the proteins?
Answer:
The effect of a greater number of cysteine amino acids enhance the stability of the proteins due to formation of S-S bridge .Explanation:
Cysteine is a naturally occuring amino acid and it is exist in L-form abundantly .Cysteine involve in formation of sulfhydril group which is very reactive . Cysteine easily oxidised to form dimer i.e., known as Cystine . Cystine is very important to analyse the primary structure of proteins , effects while changing in secondary structure and stablization of tertiary and quaternary structure . Cysteine play very important role in three dimensional conformation of protein molecule and provide stablity . Disulfide bridge present between two cysteine are responsible for the formation of the loops of backbone and disulfide bridge also provide the stability to loop of various proteins molecule . Quaternary structure mainly possible because of cysteine , here disulfide bridge of cysteine cause the linkage of various seprated polypeptides . In quaternary structure of various polypeptide chains are joinded together by interchain disulfide bridge . These interchains of disulfide bridge also provide stability of quaternary structure of proteins . The present of greater number of cysteine amino acids enhance the stablity of proteins molecules .
Proteins are generally more stable when they contain more cysteine amino acids. This is because cysteine can form disulfide bonds that adds to the stability and structure of proteins. This effect is common in proteins found in harsh environmental conditions.
Explanation:Proteins are often stabilized by the presence of cysteine amino acids. Cysteine is unique among amino acids due to its ability to form disulfide bonds, which add stability and contribute to the three-dimensional structure of proteins. As a result, proteins with a greater number of cysteine residues often have greater protein stability.
This enhanced stability due to an increase in cysteine is often seen in proteins that function in harsh environmental conditions strain, heat, and chemical stress. For example, proteins found in thermophiles (organisms that live in very high temperatures) often have a high number of cysteine amino acids to improve the stability of the proteins.
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what causes changes in air pressure in the atmosphere
Answer:
Air pressure is caused by the weight of the air molecules above
Explanation:
Air pressure is caused by the weight of the air molecules above. Even tiny air molecules have some weight, and the huge numbers of air molecules that make up the layers of our atmosphere collectively have a great deal of weight, which presses down on whatever is below.
The two gases that the blood carries around the body are and. .
Answer:
Oxygen and carbon dioxide
Explanation:
Once the respiratory gases have diffused in the lungs, resulting in the blood becoming O2 rich and CO2 being exhaled, the next stage of transporting the O2 rich blood to the tissues that need it takes place.
At the same time the next batch of CO2 rich blood must be brought to the lungs for the process to take place again.
Final answer:
The two gases that the blood carries around the body are oxygen, essential for cellular energy production, and carbon dioxide, a metabolic waste product.
Explanation:
The two gases that the blood carries around the body are oxygen and carbon dioxide. Oxygen is vital for cellular respiration, a process in which cells produce energy. The blood, specifically red blood cells containing hemoglobin, transports oxygen from the lungs to various tissues across the body. Hemoglobin has a high affinity for oxygen and, thus, is extremely effective at oxygen transport. On the other side, carbon dioxide is a waste product of metabolism and is carried back to the lungs to be exhaled. These gases exchange primarily in the capillaries surrounding the alveoli in the lungs.
what part of dna varies among dna molecules
Answer:
The part of the DNA molecule that varies among DNA molecules is nitrogenous bases.
What fossil fuels were formed from buried remains of plants and animals that lived millions of years ago?
Answer:
Coal, crude oil, and natural gas are all considered fossil fuels because they were formed from the fossilized, buried remains of plants and animals that lived millions of years ago. Because of their origins, fossil fuels have a high carbon content.
Explanation:
What interactions contribute the most to holding the two strands of dna together?
Answer:
Mainly by Hydrogen bonds and the Van der Waals forces
Explanation:
The DNA double helix (both strands of DNA) are held closs together by i) mainly hydrogen bonds between complementary bases and ii) the Van der Waals base-stacking interaction.
The hydrogen bonds between the base pairs form the double helical structure of DNA. There is no exchange or sharing of electrons in hydrogen bonds.
G always pairs with C with three hydrogen bonds and T always pairs with A with two hydrogen bonds.
Explanation:
In DNA double helix structure , there's four nitrogen bases Adenine , Thymine, Cytosine and Guanine . Hydreogen bonds formed between these nitrogenous base in DNA . In DNA double helix , two hydrogen bonds exist between Adenine and Thymine while three hydrogen bond exist between Cytosine and Guanine . Pairing of nitrogen bases in DNA double helix is very specific and this specific and selective pairing results in 'complementary base pairing ' . Hydrogen bonds doesn't involve in sharing of electrons , it occur over short distance and it can be formed and broken easily . In DNA double helix , hydrogen bond is weaker but still contribute the most to holding the two strands of DNA together because hydrogen bonds present excessively in between the DNA double helix .
The leaves of a plant fold inward when touched as a way to defend themselves from potential harm. What kind of response do the leaves demonstrate?
Answer:
Nactic response
Explanation:
The thigmonasty is a kind of response shown by a plant towards touch and vibration stimuli. It is generally produce in response to changes in plants that occur due to turgor pressure within a cell. The plants generally show this kind of response so as to decrease their surface area so that they can be protected by the grazing herbivores. Also some insectivorous plants like Venus fly trap use it to trap insects when they come in contact of the plant.
On the basis of the above explanation, The leaves of a plant fold inward when touched as a way to defend themselves from potential harm is the example of A. nastic response.
It is called the Nastic response when the leaves of a plant fold inward when touched as a way to defend themselves from potential harm.
What is the nastic response in plants?It is the plant movement that occurs in response to environmental stimuli but unlike tropic movements. Some of the most spectacular plant movements are nastic movements.
Plants that show nastic response- Mimosa pudica plant
- Dandelion flower
- Touch-me-not
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Organisms maintain dynamic homeostasis through behavioral and physiological mechanisms. Which of the following statements is an accurate explanation of a negative feedback mechanism used by animals to regulate body temperature?A) Squirrels are able to cool themselves during warmer months by producing more brown fat, which contains abundant mitochondria and a rich blood supply. B) Desert jackrabbits have unusually large ears that serve as solar heat collectors to enable them to maintain their body temperatures. C) A ground squirrel's hypothalamus detects changes in environmental temperatures and responds by activating or suppressing metabolic heat production. D) A goldfish slows its movements when the water temperature is lower.
Answer:
Organisms maintain dynamic homeostasis through behavioral and physiological mechanisms. Which of the following statements is an accurate explanation of a negative feedback mechanism used by animals to regulate body temperature? C) A ground squirrel's hypothalamus detects changes in environmental temperatures and responds by activating or suppressing metabolic heat production
Explanation:
The temperature-regulating center of vertebrate animals is located in the hypothalamus. A ground squirrel's in there detects changes in environmental temperatures and responds by activating or suppressing metabolic heat production. Maintenance of homeostasis usually involves negative feedback loops.
Which organism is a tertiary consumer?
clownfish
brittle star
killer whale
octopus
Answer:
killer whale
Explanation:
What property of the elements determines the charge the
element's ions will have?
Answer:
The answer is below with my explanation. ((:
Explanation:
The chemical properties of an element are determined by the configuration of its electrons in orbit around its nucleus. The number of electrons in orbit is equal to the number of protons in the nucleus (each proton has an an electrical charge of plus one, while each electron has the same charge only negative one).
I hope this helps :))
Answer:
Metals lose electrons to form positively charged ions and nonmetallic elements gain electrons to form negatively charged ions.
Soil moisture is the independent variable. True The proportion of individuals is the dependent variable. True Species B and Species C have a similar average tolerance for soil moisture. False Species C tolerates a broader range of soil moisture than species B. True Species C is more likely to live in a desert than Species A. False
Answer:
Explanation:
True: Soil moisture is the independent variable.Independent variables consisted of soil moisture
True:The proportion of individuals is the dependent variable.
True: Species B and Species C have a similar average tolerance for soil moisture.
True: Species C tolerates a broader range of soil moisture than species B. False: Species C is more likely to live in a desert than Species A.
The most important force causing net outward water flow across capillary walls is ________. Question 19 options: 1) osmotic pressure of plasma proteins 2) hydrostatic pressure of capillary blood 3) hydrostatic pressure of interstitial fluid 4) intracellular hydrostatic pressure
Answer:
2) hydrostatic pressure of capillary blood
Explanation:
Hydrostatic pressure is the type of pressure exerted by any fluid in a confined space.
This force of hydrostatic pressure simply means that when blood moves along the capillary, fluid which contain nutrients and other basic substances are usually moved out through its pores and into the interstitial space.
A woman age 58 years is suffering from food poisoning after eating at a local restaurant. She has had nausea, vomiting, and diarrhea for the past 12 hours. Her blood pressure is 88/50 and she is diaphoretic. She requires:a) An access route to replace fluids in combination with blood productsb) Replacement of fluids for those lost from vomiting and diarrheac) Intravenous fluids to be administered on an outpatient basisd) An access route to administer medications intravenously
Answer:
Explanation:
replacement of fluids for those lost from vomiting and diarrhea
Mendel's F1 generation of pea plants were heterozygous. What does this mean? A. All of the offspring plants would have the recessive trait. B. Half of the offspring plants would have the dominant trait, while the other half would have the recessive trait. C. The offspring had two identical alleles for the same gene. D. The plants had two different alleles for the same trait.
Answer:
option D
Explanation:
When an organism is heterozygous for a particular trait, it means the organism has two different allele for that particular trait. An allele is the alternate for of a gene. For example, using Mendel's pea plants, he studied the height trait having the tall and the short allele for this height trait. Thus, this cn be written as (Tt) where T represent the tall allel and t represent the short allele.
Answer:
The correct answer is option D. "The plants had two different alleles for the same trait".
Explanation:
An organism that is heterozygous have two different alleles for the same gene, having only in its phenotype the trait that is expressed by the dominant allele. In this case, Mendel's F1 generation of pea plants were heterozygous. This means that all the plants had two different alleles for the same trait, but also, all the plants have only the dominant trait expressed.
Which feature on microscope did Anton van Leeuwenhoek add that enabled him to magnify organisms about 250 times?
•drop of water
•light from oil lamp
•tubes that extend
•polished lenses
Answer:
D
Explanation:
Answer:
polished lenses
I got it right :D
Which of the following is characteristic of antibodies? Group of answer choices composed of heavy and light polypeptide chains three binding sites per antibody monomer incapable of being transferred from one person to another carbohydrate structure
Answer:
Composed of heavy and light polypeptide chains.
Explanation:
Antibodies are generated by the immune system mostly by the plasma cells in acknowledgment of the existence of any foreign substance, known as an antigen via the fragment antigen-binding (Fab) variable region.
Antibodies are Y-shaped in a structure that contains 4 polypeptides 2 heavy chains and 2 light chains. This structure of antibody helps to reach their dual functions one is antigen binding and another is biological activity mediation.
Final answer:
Antibodies are composed of heavy and light polypeptide chains and have a Y-shaped structure with two antigen-binding sites. They are glycoproteins with carbohydrate structures and while certain types can be transferred from one person to another, this is not common.
Explanation:
Among the characteristics of antibodies, they are composed of heavy and light polypeptide chains, which together form the Y-shaped structure typical of these immune system molecules. Each antibody molecule has two antigen-binding sites at the ends of its 'Y' structure, contrary to the notion of having three binding sites. These binding sites are formed by the variable domains of both the heavy and light chains, highlighting the importance of the light chains in antigen recognition. Additionally, antibodies do have a carbohydrate structure as they are glycoproteins, consisting of polypeptide and carbohydrate components. While certain types of antibodies can be transferred from one person to another, such as from mother to child through breastfeeding, in the context of this question, it is likely referring to the fact that antibodies, in general, are not routinely transferred between people as a means of conferring immunity.
The main function of the inflammatory response is 1.to initiate the production of antibodies. 2.remove contaminating microorganisms 3.initiate repair of damaged tissues. 4.initiate T-cell-mediated immune responses.
Answer:
3.initiate repair of damaged tissues.
Explanation:
Inflammation is a process or response that occurs when the immune cells produce substances in order to protect the body from injuries infection by foreign microbes like viruses and bacteria. The main functions of inflammation or inflammatory response are to remove the cause of injuries in cell, get rid of damaged tissues and necrotic cells that might have been damaged during injury and initiate the repair of damaged tissues.
During inflammatory response certain symptoms like redness, heat/warmth, swelling and pain are most likely to be experienced.
Which feature on microscope did Anton van Leeuwenhoek add that enabled him to magnify organisms about 250 times?
•drop of water
•light from oil lamp
•tubes that extend
•polished lenses
Answer:
polished lenses
Explanation:
i am doing a assignment on them right now
Answer:D. Polished Lenses
Explanation:
i got it right
Liposomes consist of ________ bilayers that enclose an aqueous compartment where drugs can be contained for delivery to specific tissues if target proteins are present. Liposomes consist of ________ bilayers that enclose an aqueous compartment where drugs can be contained for delivery to specific tissues if target proteins are present. Membrane protein Cholesterol Phospholipids Detergents
Answer:
Phospholipid bilayer
Explanation:
Liposomes are vesicles are spherical in shape. They consist of at least one phospholipd bilayer most especially phosphatidycholine. Liposomes are artficial vesicles similar to a membrane, because it has an hydrophilic core surrounded by a hydrophobic lipid bilayer.
Liposomes are artificial prepared and are used for the transportation of substances like drugs and nutrients between cell parts, outside of the cell and into the cell.
In liposomal drug delivery, the liposome fuses with other internal cell membranes at the site of action and releases its liposomal content.
Final answer:
Liposomes are composed of phospholipid bilayers and are used for drug delivery, offering versatility in composition and the ability to target specific tissues.
Explanation:
Liposomes consist of phospholipid bilayers that enclose an aqueous compartment where drugs can be contained for delivery to specific tissues if target proteins are present. They can either be unilamellar, with a single bilayer, or multilamellar, resembling an onion with multiple layers. The interior of liposomes is aqueous, allowing for the encapsulation of water-soluble molecules such as nucleic acids, proteins, and drugs.
The chemical composition of liposomes can be varied, with neutral phospholipids commonly used and sometimes supplemented with negatively charged phospholipids. Other molecules such as cholesterol can also be incorporated to modulate properties like membrane fluidity and transition temperature. With their ability to encapsulate therapeutic agents and target specific cells, liposomes are considered valuable in medical applications, often referred to as lipid nanoparticles.
Liposomes are formed when phospholipids are mixed with water, resulting in a layered vesicular structure that can be fine-tuned for drug delivery systems. They are an example of the sophisticated engineering of biological mimetics for use in modern medicine.
A group of individuals of the same species that live in the same area and interact with one another is a ___ .
The process that gives rise to new species is called _______.
A ______ is anything that prevents successful interbreeding between species.
The defines a ______ as a group of populations whose members have the potential to interbreed with one another and produce fertile offspring.
The groups of the same species living and interacting in the same area are populations. New species come into existence through a process called speciation. Anything that hinders successful interbreeding between species is a reproductive barrier. A species, as defined in Biology, is a group of populations capable of interbreeding to produce fertile offspring.
Explanation:A group of individuals of the same species that live in the same area and interact with one another is called a population. The process that gives rise to new species is known as speciation. A reproductive barrier is anything that prevents successful interbreeding between species. Biology defines a species as a group of populations whose members have the potential to interbreed with one another and produce fertile offspring.
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If there are 40 centromeres in a cell at anaphase of mitosis, how many chromosomes will be found in each daughter cell following cytokinesis?
Answer:
Twenty (20)
Explanation:
During the mitotic cell division the centromeres join the sister chromatids of chromosomes, which are subsequently separated towards opposite poles of the spindle. After cytokinesis, daughter cells have half the number of chromosomes, thereby, in this case, the number of chromosomes will be twenty (20)
20 number of chromosomes are received by each daughter cell after cytokinesis.
There are 20 chromosomes will be found in each daughter cell after cytokinesis because 40 centromeres occurs due to replication of chromosomes and during anaphase the duplicated genetic material is separated from each other in a parent cell and after that two identical daughter cells are formed having equal number of chromosomes so we can conclude that 20 number of chromosomes are received by each daughter cell after cytokinesis.
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A scientist studying stars can estimate the temperatures of stars by their
Answer: gas
Explanation:
I believe it is gas because stars are extremely hot and if a living thing were to go near they could burn to death. Gas is the only way they could measure temperature
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What’s a variation biology meaning
Variation in biology:
any difference between cells, individual organisms, or groups of organisms of any species caused either by genetic differences or by the effect of environmental factors.
Variation in biology refers to differences in genetic makeup, physiology, and behavior among individuals or groups. This is crucial in understanding human diversity and the mechanisms of inheritance and evolution. Genetic variation results from factors like mutation, migration, and natural selection.
Variation in biology refers to the differences observed in the genetic makeup, physiology, body chemistry, behavior, and culture within a population or species. These differences, also known as human variation, can be measured to understand the degrees of variation between individuals, groups, populations, or species.The study of genetics, which includes examining how genes function, interact, and produce visible characteristics, helps us comprehend how characteristics are inherited and how they vary over time and environments.One significant type of biological variation is genetic variation, which is the measure of diversity in the genetic features among individuals in a population. Factors such as mutation, migration, genetic drift, and natural selection contribute to this variation and are essential in creating the wide range of biological diversity seen in humans.How does the respiratory system work with the muscular system
Answer:
The muscular system helps push air in and out of the respiratory system. The respiratory system has the lungs to deliver air to the muscles
Explanation:
What contributes to the movement of air masses
Answer:
the answer is b natural winds
Explanation:
A microRNA is a _______ that binds an mRNA from a different gene to ___________. Group of answer choices double-strand of RNA; prevent its translation double-strand of RNA; prevent its transcription double-strand of RNA; activate its transcription single-strand of RNA; prevent its transcription single-strand of RNA; prevent its translation
Answer:A microRNA is a single strand of RNA that binds an mRNA from a different group to prevent its translation.
Explanation:
MicroRNA are a class of 22 nucleotide, non-coding RNAs that are evolutionarily conserved from plants to animals and negatively regulate gene targets by inhibiting protein translation or enhancing mRNA degradation. MiRNA are transcriped by RNA polymerase II as large RNA as large RNA precursors called PRI-miRNA.
Answer:
The correct answer is "double-strand of RNA; prevent its translation".
Explanation:
A microRNA is a small non-coding RNA molecule that is double stranded of approximately 22 to 33 nucleotides in length. The function of microRNA is to regulate gene expression by silencing complementary mRNA, which causes their silencing. Once the microRNA binds to an mRNA, the mRNA is silenced and do not proceed to be translated into a protein.
The Lytic Cycle can be described as the following. Check all that apply
Viral DNA takes over Symptoms are present
Viral DNA merges (mixes) with the host cell DNA
Virus destroys host cell *burst*
Hijacking of the host cell occurs
No symptoms are present (asymptomatic)
Cell reproduces and spreads the provirus
The Lytic Cycle can be described as the following:
Virus destroys host cell *burst*
Hijacking of the host cell occurs
Cell reproduces and spreads the provirus
Viral DNA takes over Symptoms are present
Explanation:
Lytic cycle is the cell cycle of virus or bacteriophage which after replication bursts open the cell and gets the virion released.
The virus gets attached to the surface of the cell wall and gets penetrated inside the cell.
Once it reaches the cell it makes it way to the nucleus where it hijacks the hosts machinery of replication and gets uncontrollable divisions.
The genes of the virus get expressed from the genetic material of the virus.
The assembly of the virion particle takes place.
After the assembly the cell lyses to release the virus.
Mrs. Rodriguez shows her seventh-grade class a video on cellular division
of a germ cell dividing by meiosis and a human zygote dividing by mitosis.
Which of the following might be included in this video as the best
description of the difference in the results of mitosis and meiosis?
Answer:
Mitosis results in daughter cells with a complete set of genes. Meiosis results in daughter cells with half genes.\
(I did the work in my class alr so i know)
A germ cell dividing by meiosis and a human zygote dividing by mitosis, and the main differences are that by the process of mitosis, the human zygote grows in size with the exact same kind of cell, but in meiosis, four haploid gametes are formed.
What is the importance of mitosis in the zygote's development?The meiosis results in four haploid cells, and those are called gametes cells, such as the sperm and ovum from the male and female, respectively. The gametes unite to form the zygote, and then the zygote divides mitotically, resulting in an equal set of chromosome cells, and the cells multiply to form a ball like the morula. The morula then divides further and undergoes modification to form the baby.
Hence, the main differences are that, by the process of mitosis, the human zygote grows in size with the exact same kind of cell, but in meiosis, four haploid gametes are formed.
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What does it mean when we say a gene is "turned off"? What does it mean when we say a gene is "turned off"? The gene is now activated. The gene cannot be transcribed and translated into a protein. The gene has a mutation. The gene is no longer working properly.
Answer:
A GENE IS SAID TO BE TURN UP WHEN THEY GENE CANNOT BE TRANSCRIBED AND TRANSLATED INTO A PROTEIN.
Explanation:
Genes can be turned on and off bu cells which is the process of gene regulation. Gene regulation involves the mechanisms used by cells to induce or repress the expression of a gene which is an important part of normal development. Gene regulation involves structural changes made to the gene to ensure transcription occur or prevent transcription, the genes can be bound to a specific DNA receptor and the mechanism that modifies translation of mRNA. Gene regulation helps the cell determine which gene to be transcribed and the number of protein molecules to be made at any given time. Gene regulation occurs at any point of gene expression but its most common during transcription of DNA to an mRNA molecule. Signals from the environment activates transcription factors which determines the process of transcription by binding to the regulatory regions of the genes.