Answer:
✿´`·.·´`✿When an allele is dominant, the characteristic it is connected to will be expressed in an individual. When an allele is recessive, the characteristic it is connected to is less likely to be expressed. Recessive traits only manifest when both alleles are recessive in an individual.
a sudden global decrease in the number of species over a relatively short period of time, called is
A sudden global decrease in the number of species over a relatively short period of time, called is Mass extinction.
A mass extinction is typically described as the extinction of about three-quarters of all species on Earth during a "short" geological time span. Given the immense length of time that has passed since life first originated on Earth, "short" is defined as anything less than 2.8 million years.
Major extinctions are relatively uncommon. They induce severe changes in the Earth's biosphere, creating possibilities for surviving species and their progeny as they adapt to the new conditions, claiming abandoned ecological niches or filling newly formed ones. Comet and asteroid impacts, extensive volcanism, climatic changes, fast changes in topography and ocean currents, or a combination of these elements can all produce mass extinction events.
In Earth's history, there have been five particularly massive extinction events. Each one is distinguished by a noticeable fall in biodiversity that occurs in the fossil record and lasts for tens of millions of years later. With the commencement of each major extinction event, the relatively abrupt loss of enormous numbers of species significantly simplified or caused the collapse of many of Earth's biological ecosystems.
Throughout time, surviving species took ecological niches formerly held by other species (some of which may have preyed on or competed with them), and also filled new niches as ecosystems recovered and new biological groups emerged.
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what structural features of pea plant flowers made them suitable for mendel’s genetic studies?
The main structural feature that made pea plant flowers suitable for Mendel’s genetic studies was their self-pollinating ability.
Self-pollinating plants allow pollen to transfer from the anthers of the same flower to the stigma, which prevents cross-pollination.
This allowed Mendel to regulate the genetic variables of his studies by prohibiting the entry of unknown genes from other plants.
In addition, Mendel was able to pinpoint a variety of distinctive characteristics in pea plants, including bloom colour, seed form, and pod colour. Mendel was able to study the inheritance pattern of these qualities as a result, and it was this that inspired him to develop his principles of inheritance.
Also, Mendel was able to see the outcomes of his trials fast and make more observations in a shorter period of time because of the pea plant's short life cycle.
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Use the following table to answer the question:
This table shows the codons found in messenger RNA. Using this information, what sequence of nucleotides in the template strand of DNA could code for the polypeptide sequence Phe-Ser-Gln?
3' UUC-UCU-CAA 5'
3' AAG-AGA-GTT 5'
3' TTC-TCT-CAA 5'
3' AAG-AGA-GUU 5'
the answer is 3' AAG-AGA-GTT 5' :)
The polypeptide Phe-Ser-Gln could be encoded for by the nucleotide sequence UUC-UCU-CAA in the template strand of DNA.
What is the genetic code?
The triplets of nucleotides that code for a specific amino acid in the developing polypeptide are indicated by the genetic code. These triplets, or codons, serve to identify the protein sequence during transcription and subsequent translation .In conclusion, the polypeptide sequence Phe-Ser-Gln could be encoded for by the nucleotide sequence UUC-UCU-CAA in the template strand of DNA.
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What is uncoiled,stringy DNAcalled?A. ChromatinB. ChromosomesC. ChlorophyllD. SisterChromatids
The uncoiled, stringy DNA is called Chromatin, the correct option is A.
Chromatin is a complex of DNA, RNA, and protein found in the nucleus of eukaryotic cells. It is composed of nucleosomes, which are made up of DNA wrapped around histone proteins. The histones act as spools, around which the DNA can wrap, organizing and compacting the long strands of DNA within the cell nucleus. Chromatin can exist in a more compact, condensed form, known as chromosomes, during cell division. During interphase, the chromatin is uncoiled and dispersed throughout the nucleus, allowing for gene expression and DNA replication. As cells prepare to divide, the chromatin condenses into chromosomes to ensure proper distribution of genetic material to daughter cells.
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The walls of capillaries contain only the ______ intima allowing for rapid gas and nutrient exchange between the blood and tissues.
A. Tunica
B. Endothelium
C. Tunica Media
D. Elastic fibers
What muscles Supinate and pronate?
Forearm muscles are responsible for pronation (pronator teres, pronator quadratus and flexor carpi radialis).
Supination is accomplished through a combination of the supinator (in the forearm) and the biceps brachii, which produces a strong supination moment due to its attachment to the ulna. Supination is primarily aided by the supinator and biceps brachii muscles. The pronator quadratus muscle is located just below the wrist in the forearm.
It has two heads that emerge from the ulna and embed on the radius. The pronator quadratus, in conjunction with the pronator teres, enables us to twist our forearm into a palm-down position (pronation). By pulling on the radius, the supinator muscle of the forearm and the biceps brachii of the upper arm supinate the wrist.
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A locus encodes different genes in different individuals of the same species.
True
False
False. A locus is a specific physical location on a chromosome that can encode one or more genes.
However, the same locus typically encodes the same gene or genes in all individuals of a given species. There can be genetic variation between individuals at a given locus due to differences in the DNA sequence, but this does not result in the encoding of different genes.A locus is a specific location on a chromosome where a particular gene is located. Each gene is typically found at a specific locus, and the same gene is usually located at the same locus in all individuals of a given species. For example, in humans, the gene for the protein hemoglobin is located on chromosome 11, and all humans have this gene at the same locus on chromosome 11.
However, there can be genetic variation between individuals at a given locus. This variation can occur through differences in the DNA sequence, such as single nucleotide polymorphisms (SNPs) or insertions/deletions (indels). This variation can affect the function of the gene, and can also be associated with differences in traits between individuals. However, these differences in sequence do not result in the encoding of different genes at the same locus in different individuals of the same species.
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Why is human hemoglobin a good example of evolutionary molecular design?
Human hemoglobin is a good example of evolutionary molecular design because of its functional properties.
Hemoglobin, a protein found in red blood cells, carries oxygen to your body's organs and tissues and carbon dioxide away from those tissues and back to your lungs.. You have a low red blood cell count if a hemoglobin test finds that your hemoglobin level is lower than normal (anemia).
Adults often achieve a range of outcomes, but in general: Male: 138–172 grammes per litre (g/L) or 13.8–17.2 grammes per deciliter (g/dL). Women: 121–151 g/L or 12.1–15.1 g/dL.
To manufacture hemoglobin, the component of the red blood cell that carries oxygen to your organs, your bone marrow needs iron. Lack of iron in the diet, particularly in young children, teenagers, vegans, and vegetarians, can lead to anemia.
certain medications, meals, and caffeinated beverages. Changing your diet and taking iron supplements are typically the treatments for this type of anemia. This can entail getting iron through a vein for certain people. If blood loss—other than from menstruation—is the cause of iron deficiency, the source of the bleeding must be found, and the bleeding must be stopped.
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describe how different parts of the cell cycle are regulated in healthy cells.
The cell cycle is a complex process that is tightly regulated in order to ensure the proper growth and division of cells. During the cell cycle, different parts of the cell are regulated by specific checkpoints.
These checkpoints ensure that the cell is prepared for the next step in the cycle, and that any errors that could lead to cell death or mutations are avoided.The G1 checkpoint occurs just after the cell has been created and is responsible for determining if the cell is healthy enough to enter the S phase, or synthesis phase.The G2 checkpoint occurs after the S phase and is responsible for determining if the cell is ready to undergo cell division. The M checkpoint occurs after the M phase and is responsible for ensuring that the cell’s genetic material is evenly distributed among the two daughter cells. The G0 checkpoint is the final checkpoint of the cell cycle, and is responsible for determining if the cell is healthy enough to remain in the resting phase or enter a new cell cycle.
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Which option identifies the method that could be applied in the following scenario?
A portion of a field has drained, more rapidly than the rest, leading to drought conditions in the area several days before the water has needed in the rest of the field.
A. Selective application technology
B. Variable-rate technology
C. Precise nutrient application
D. Variable-rate irrigation
Answer:
hi my answer is D
hope this helping <3
What is a scientific system?
The scientific naming system given to living organisms is known as binomial nomenclature. This scientific nomenclature system of classification gives each organism a genus and species name.
What do you mean by scientific classification?A system is a set of things that are interconnected in a way that leads to recognizable patterns of behavior over time. Systems science is an interdisciplinary field that studies the complexity of systems in nature, society or another discipline.
It is "the art and science of creating complete solutions to complex problems", such as signal processing systems, control systems and communication systems, or other advanced forms of modeling and design in certain engineering fields.
The classification of majors in systems science includes general systems theory, cybernetics, systems engineering, operations research, and systems analysis.
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Which three of the following contain the highest percentage of calories from carbohydrates?
-Legumes
-Fat-free milk
-Fish
-Jam
-Table sugar
-Dried fruit
The three options with the highest percentage of calories from carbohydrates are Jam, Table sugar, and Dried fruit.
How much calories does Jam, Table sugar, Dried fruit have?The three items that contain the highest percentage of calories from carbohydrates are:
Jam: Jam is made mostly of sugar and fruit, which are both high in carbohydrates. It contains about 100% carbohydrates, with no protein or fat.
Table sugar: Table sugar is 100% carbohydrate, with no protein or fat.
Dried fruit: Dried fruit is high in natural sugar and carbohydrates, with about 75-90% of its calories coming from carbohydrates.
The other items on the list, such as legumes, fish, and fat-free milk, also contain carbohydrates but in lower amounts compared to the three items mentioned above.
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A potent inhibitor of platelet aggregation released by endothelial cells is:
A. Epinephrine
B. Prostacyclin
C. Ristocetin
D. Thromboxane A2
Option A is Correct. Epinephrine is a powerful inhibitor of platelet aggregation produced by endothelial cells. Despite not being an aggregating agent, pinephrine potentiates human platelet activation.
Nitric oxide (NO), which is released from endothelial cells, prevents platelet aggregation by causing soluble guanylyl cyclase (sGC) to be activated. This causes an increase in cGMP and the activation of protein kinase G (PKG), which phosphorylates downstream proteins, lowers Ca2+ levels, and inhibits integrins.
As cyclo-oxygenase is a crucial enzyme in platelet prostaglandin processing, aspirin prevents platelet aggregation by irreversibly inactivating it, whereas other nonsteroidal anti-inflammatory medications including sulphinpyrazone produce reversible and dose-dependent suppression of the same enzyme.
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Which of these groups consist of parasitic flagellated cells, such as Trypanosoma, the organism that causes sleeping sickness?a. ciliates
b. kinetoplastids
c. dinoflagellates
d. diatoms
the greatest volume of air that can be expelled when a person performs a rapid, forced expiration is the __________.A. inspiratory capacity
B. forced vital capacity
C. peak expiratory flow rate
D. residual volume
E. peak flow zone
The greatest volume of air that can be expelled when a person performs a rapid, forced expiration is the B. forced vital capacity
What is forced vital capacity?
Total air exhaled during the FEV test is measured as forced vital capacity, or FVC. During spirometry, lung function tests such as forced expiratory volume and forced vital capacity are measured. The most crucial way to assess lung function is through forced expiratory volume.
The amount of air that can be forcibly exhaled from your lungs after you have fully inhaled. Because some air stays in your lungs when you exhale, it is only around 80% of its total capacity, or 4.8 liters. Even in healthy, non-smoking individuals, forced vital capacity might decline by roughly 0.2 liters every decade.
Therefore the greatest volume of air that can be expelled when a person performs a rapid, forced expiration is the B. forced vital capacity
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Antiseptic surgery was pioneered by A. Pasteur. B. Lister. C. Jenner. D. Kitasato.
Antiseptic surgery was pioneered by B. Lister.
Joseph Lister was a British surgeon widely regarded as the founder of antiseptic surgery.
After studying the work of Louis Pasteur, who demonstrated the germ theory of disease, he developed the concept of antiseptic surgery in the 1860s. Lister recognised that the presence of microorganisms in the wound caused many surgical infections, and he developed techniques for sterilising surgical instruments and creating a sterile environment in the operating room to prevent infections.
Lister's antiseptic surgery techniques revolutionised the field of surgery and significantly reduced the incidence of surgical infections. His legacy lives on today through the use of antiseptic techniques in all aspects of healthcare.
Antiseptic surgery is a surgical technique that employs the use of antiseptic agents to stop and regulate the growth of microorganisms that can result in infection in the surgical wound. Joseph Lister pioneered the use of antiseptic techniques in surgery in the late 1800s, and it revolutionised the field of surgery.
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which interaction between animals best controls the population of a species?
The interaction between predators and prey is the best way to control the population of a species.
As part of their natural food cycle, predators hunt and consume prey creatures. Predation aids in regulating the population of animals that serve as prey. Predators eliminate sicker and weaker animals, leaving only the healthy ones to procreate. Predation ensures that prey populations are strong and healthy in this way.
Predation also regulates the number of predators at the same time. Because there won't be as many prey animals to eat, there won't be as many predators. This supports the ecosystem's ability to remain in balance. A key method for managing species populations is the interaction between predators and prey. It makes sure ecosystems are stable and balanced and permits the coexistence of various species in the same habitat.
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Which letter identifies the corpus callosum?
A
B
C
D
Will give brainiest!
The letter that identifies the corpus callosum in the diagram is letter B.
What is the function of the corpus callosum?The corpus callosum is a broad band of nerve fibers that connects the left and right hemispheres of the brain. Its main function is to allow the two hemispheres to communicate and share information with each other.
The corpus callosum facilitates the transfer of motor, sensory, and cognitive information between the two sides of the brain, and helps to integrate their functions. Without the corpus callosum, the hemispheres would function largely independently, which could result in a range of neurological and cognitive problems.
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cftr has multiple transmembrane domains. what would be the properties of the amino acids comprising that region of the protein?
CFTR is a single polypeptide with two transmembrane domains (TMDs), two nucleotide-binding domains, and an N-terminal lasso motif (NBDs) .
On various surfaces throughout the body, including the surface of the lung, the cystic fibrosis transmembrane conductance regulator (CFTR) protein aids in regulating the balance of salt and water.
Cells become entrapped with chloride, a salt component, when the protein is not functioning properly. The deletion of phenylalanine 508 (F508del) in the cystic fibrosis transmembrane conductance regulator is a mutation that has been linked to the disease (CFTR). The CFTR's first nucleotide-binding domain (NBD) contains the amino acid. Gating issues and faulty channel processing result from this mutation.
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Challenges for survival of the first land plants includeI. sources of water.II. sperm transfer.III. desiccation.IV. animal predation.A) I onlyB) II onlyC) II, III and IV onlyD) I, II and III only
What changes would make Earth cooler?
Answer:
The following are the reasons that would make Earth cooler:-Explanation:
Reduce HVAC systemsObserve every dropPrefer non would productsCalculate carbon printWhat enables competitive inhibitors to bind to a specific enzyme?
Competitive inhibitors have structures that resemble the enzyme's substrate.
Competitive inhibitors have unique sugars that are attracted to the enzyme.
Competitive inhibitors form unique covalent bonds with enzyme structures.
Competitive inhibitors cover the entire surface of an enzyme.
Option A: Competitive inhibitors have structures that resemble the enzyme's substrate, this is what enables them to bind to a specific enzyme.
A substrate is stopped when an inhibitor molecule binds to the active site of an enzyme and competes with it for the enzyme's attention. when an inhibitor that competes with the enzyme for the enzyme's active site is present and mimics the substrate while binding to the enzyme but not producing any products. In other terms, the presence of a competitive inhibitor causes a decrease in enzyme activity.
The binding of an inhibitor prevents the binding of the substrate, or target molecule, of the enzyme in the situation of competitive inhibition of enzyme catalysis. To do this, the binding site's active location on the substrate is somehow prevented.
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which bacteria stains with aniline dye
Aniline dye, also known as Gentian violet, is commonly used in microbiology for staining bacterial cells. One type of bacteria that can be stained with aniline dye is Gram-positive bacteria.
Gram-positive bacteria, which have a thick peptidoglycan layer in their cell wall that retains the dye after staining. Gram-positive bacteria include species such as Staphylococcus, Streptococcus, and Bacillus, among others.
In contrast, Gram-negative bacteria have a thinner peptidoglycan layer and an outer membrane that prevents the retention of the aniline dye. Gram-negative bacteria include species such as Escherichia coli, Pseudomonas aeruginosa, and Salmonella enterica, among others.
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From a population of size 500, a random sample of 50 items is selected. The mode of the sample.... a. can be larger, smaller or equal to the mode of the population. b. must be equal to the mode of population, if the sample is truly random. c. must be equal to the mean of the population, if the sample is truly random. d. must be 500.
Previous question
N
The mode of the sample can be larger, smaller or equal to the mode of the population, A.
What does the mode of a sample represent?The mode of the sample is simply the most frequently occurring value in the sample. It is not necessarily expected to be the same as the mode of the population, which is the most frequently occurring value in the entire population.
The mode of the sample may or may not be a good estimate of the mode of the population, depending on the characteristics of the sample and the population. It is a measure of central tendency that describes the value that appears most often in a set of data.
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the cleavage furrow of animal cells is formed with the help of a constricting belt made of the protein___
The cleavage furrow of animal cells is formed with the help of a constricting belt made of the protein actin and myosin.
During cell division, the cytoplasm of the cell is divided into two daughter cells through a process called cytokinesis. In animal cells, cytokinesis is achieved through the formation of a cleavage furrow, which is a constricting ring that pinches the cell membrane inward until it separates the two daughter cells.
The cleavage furrow is formed by the action of actin and myosin, which are two types of contractile proteins. Actin forms a ring-like structure just inside the cell membrane, and myosin binds to the actin filaments and uses energy from ATP to move along the filaments and contract the ring. This contraction of the actin-myosin ring causes the cell membrane to be pulled inward, forming the cleavage furrow.
Overall, the formation of the cleavage furrow is a critical step in animal cell division, and it is achieved through the coordinated action of actin and myosin proteins.
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how many specific lines of defense are formed by our immune system?
Our immune system has three specific lines of defense that work together to protect us from pathogens and foreign invaders:
As per the question given,
The first line of defense is the innate immune system, which provides immediate, nonspecific protection against a wide variety of pathogens. Physical barriers such as skin and mucous membranes as well as immune cells such as macrophages and NK cells are involved.
The second line of defense is also part of the innate immune system, but provides a more targeted response to specific pathogens. It involves inflammation, fever, and the production of cytokines and chemokines that help recruit immune cells to the site of infection.
The third line of defense is the adaptive immune system, which provides long-term protection against some pathogens.This involves the production of antibodies and the activation of T cells, which recognize and attack specific pathogens that the body has encountered.
Together, these three lines of defense form a complex and sophisticated immune system that works tirelessly to keep us healthy and protected from harmful invaders.
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How big is the blue pit viper?
The blue pit viper is adults grow to a length of 1.2 to 1.5 meters. They can survive in captivity for up to 30 to 40 years. They live in West and Central Africa in the wild.
Blue pit vipers are aggressive predators with a "tendency towards combat over flight," according to the Australian Geographic. Its venom seldom causes death, but it is "hemorrhagic," meaning it can result in excruciating agony, swelling, and both internal and external bleeding.
Unbeknownst to you, cottonmouths are pit vipers, which means they have heat sensitivity. They are among the world's largest vipers, with adults reaching lengths of up to four feet. Cottonmouths are semi-aquatic creatures that inhabit lakes, rivers, and marshes in the Southeast of the United States.
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what are the characteristics of algae
Alga is a word that characterizes an extensive and incredibly diverse class of eukaryotic, photosynthetic lifeforms. Algaes are found where there is sufficient moisture.
Algal cells are eukaryotic in nature. Algae are photosynthetic organisms. Algae can be both unicellular and multicellular organisms. Algae lack a well-defined body, so, arrangements like roots, stems or leaves are lacking. Algaes are found where there is sufficient moisture. Reproduction in algae happens in both asexual and sexual conditions. Asexual reproduction ensues by spore formation. Algae are free-living, although some can create a symbiotic relationship with different organisms.
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What is tolerance? Explain three ways is accomplished
As a fair and impartial attitude towards those who live differently than you, tolerance can be characterised.
Many researchers have noted that the degree of tolerance you experience in your life is correlated with your levels of happiness and contentment; however, these same researchers seem to have difficulty addressing paradoxical questions like "Are tolerant people more happy, or are happy people more tolerant?"
Categories of tolerance, Includes:
Tolerance for the local community, the state, the individual, and the country.Since it fosters a more harmonious, unified society, tolerance is crucial. Individuals are more likely to live happier lives and be productive members of society when they may express themselves freely and peacefully without worrying about being persecuted.Learn more about tolerance here:
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glycolysis, the first step in cellular respiration, takes place in the ______________ of eukaryotic cells.
Glycolysis, the first step in cellular respiration, takes place in the cytoplasm of eukaryotic cells.
In general , Glycolysis is considered as the first step in process of cellular respiration, that occurs in the cytoplasm of eukaryotic cells. It is also considered as the universal metabolic pathway, because it is found in almost all organisms, that includes plant and animal kingdom .
Also , in this process the breakdown of glucose occurs that is converted into pyruvate, that enters inside the mitochondria to produce ATP with the help of the citric acid cycle and oxidative phosphorylation. Glycolysis in general doesn't require oxygen hence is capable of occurring in both aerobic and anaerobic conditions.
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