A self-fertilizing plant with genotype ttyypp will not produce any offspring that is tall, with green seeds, and with purple flowers.
Is Mendel's peas' predominant seed color green or yellow?Since they were all yellow, yellow has the upper hand over green in this situation. One Y is enough to obscure the y and turn the peas yellow. The recessive green is subordinated to the one yellow.
If a homozygous green seed YY and a heterozygous yellow seed YY are crossed, what is the genotypic ratio?In a hybrid between heterozygous yellow-seeded and green-seeded plants, 50% of the offspring will have yellow seeds and 50% will have green seeds.
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What causes the overgrowth of algae and Cyanobacteria in an aquatic environment?
Answer:
Hello! The correct answer should be "Excess phosphorus from the runoff of fertilizer and animal waste that ends up in ponds."
Explanation:
An algal bloom is mostly caused by the presence of large amounts of nitrogen and phosphorus present in water. These nutrients are washed away from lands and farms that are heavily riddled with nitrogenous and phosphatic fertilizers.
Rain acts as an agent by washing these leachable nutrients from the soil into water bodies such as rivers and streams, which eventually end up in large reservoirs such as lakes and oceans.
These nutrients are also deposited into waterways through drainage systems. Due to poor sewage treatment, untreated raw sewage finds its ways into water bodies, and because it is rich in nitrogen compounds such as nitrates and ammonia, it causes algal bloom.
Water pollution, particularly the discharge of poorly treated or untreated industrial waste into waterways, leads to the release of raw toxic waste into water systems. Since it contains nutrients and compounds such as nitrogen, lead, and phosphorus, the outcome is the dense growth of algae.
Which body system is formed by all the structures that move blood through the body?.
Answer:
The vascular system, also called the circulatory system
Explanation:
What patterns or lack thereof do you notice about the locations of genes involved in wound healing?
The primary intention is the pattern in the locations of genes involved in wound healing.
Primary intention and secondary intention are the two fundamental categories of healing. There are four steps that take place in both types: hemostasis, inflammation, proliferation, and remodeling.
An essential growth factor for wound healing that encourages fibrosis is the connective tissue growth factor (CTGF), also known as CCN2 [33,34]. Dermal fibroblasts do not typically express CCN2, but during wound healing, CCN2 is expressed by fibroblasts.
Three fundamental processes—contraction, connective tissue matrix deposition, and epithelialization—are used in all cutaneous wounds to promote healing. When a wound is left open, the tissue moves toward the wound's center as a result of the interaction between cells and the matrix.
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what do Germany people wear in Thanksgiving?
Explanation:
a casual white shirt
........
............
........
not a turket
The primary function of the proximal tubule is secretion
a. true
b. false
The primary function of proximal tubule is reabsorption, selective reabsorption of useful substance by active transport. is false.
Nephron is basic functional unit of kidney.it consists of three parts-
The renal corpuscles
Filtering component
The renal tubule
The renal tubule is divided into -
1. Proximal convoluted tubule (PCT)
2. Loop of Henle
3. Distal convoluted tubule (DCT)
PCT has high capacity for reabsorption as it is lined up with cuboidal epithelial cells which have a brush border to increase the surface area on apical side.
It completes the reabsorption of water, glucose, amino acid and important anions, including phosphate and citrate because it is the sole site of transport of the filtered solutes. Also plays an important role in regulating acid-base balance by reabsorbing approximately 80% of filtered bicarbonate.
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PLEASE HURRY
what are the two major subdivisions of the nervous system?
The two major subdivisions of the nervous system
Central nervous system (CNS) Peripheral nervous system (PNS). The brain and spinal cord make up the central nervous system; the rest of the body is made up of the peripheral nervous system. The brain receives signals from the spinal cord to process.The cranial cavity of the skull houses the brain, while the vertebral cavity of the vertebral column houses the spinal cord. The word "peripheral nervous system" refers to the location of the nervous system, which is outside of the brain and spinal cord. Saying that the CNS is what is inside these two compartments and the peripheral nervous system is what is outside of them is a bit oversimplified, but it is one way to begin to think about it.The distinction between central and peripheral nervous systems is not always universal and depends on several features of the nervous system. In reality, a few peripheral nervous system components are located in the cranial or vertebral cavities. The nervous system's "power plant" has been referred to as the peripheral nervous system. It functions similarly to a system that gathers data and issues commands. The autonomic nervous system and the sensory-somatic nervous system are the other two divisions of the PNS. Later on, both will be covered in more detail.To know more about nervous system check the below link:
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What is the term for the expanded segment of the spinal cord where nerves that serve the shoulder and upper limbs exit?.
The expanded segment of the spinal cord, where nerves that serve the shoulder and upper limbs exit is known as cervical enlargement.
What is spinal cord?The spinal cord is an extension of the central nervous system (CNS), which consists of the brain and spinal cord. The spinal cord begins at the lower part of the brainstem (the area of the medulla oblongata) and ends at the waist where it tapers to form a cone called the spinal cord cone. It is a long cylindrical structure that connects the brain to the waist. It contains tissues, fluids, and nerve cells. A bony spine surrounds and protects the spinal cord. The spinal cord helps carry electrical nerve signals throughout the body.
The spinal cord and spinal column are divided into four regions from top to bottom:
Cervical Thoracic Lumbar SacralAn injury to the upper part of the spinal cord can paralyze most of the body and affect all limbs (called quadriplegia). A lower spinal cord injury can lead to leg and lower body paralysis (called paraplegia).
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If a cell is no longer able to differentiate into any type of tissue, it has become ________.
Answer: Zygote
Explanation:
A zygote, also called a fertilized egg, is the phase of conception where the egg and sperm join to form a single cell. The zygote contains a full set of chromosomes, with 23 from the egg and 23 from the sperm. The zygote phase lasts only about four days, after which the single cell splits rapidly to become a blastocyst and then an embryo.
: amino-acyl-trna synthetases attach amino acids to their cognate trnas. about amino-acyl-trna synthetases are usually found in most microbial cells. choose one: a. 20 b. 100 c. 2 d. 50 e. 5
There are generally 20 natural amino synthetases in most microbial cells.
What do cells do, and what are they?Cells are as basic structural components of all living organisms. A human body has many billions of cells. They provide the body with structure, take in nutrients from food, convert that into energy, and carry out certain functions.
What's a cell's structure?The three parts that make it up a cell are the cytoplasm, the nucleus, and also the outer layer. The cytoplasm contains tens of dozens of tiny, distinctive components known as organelles and intricate networks of microscopic fibers.
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The matter that is composed of myelinated and unmyelinated axons and is superficial to the gray matter of the spinal cord is called matter.
One of the two parts of the nervous system is white matter. It makes up the of the deep portions of the brain as well as the superficial portions of the spinal cord, is primarily composed of glial cells myelinated axons.
What causes myelination of an axon?The innermost sheet-like glial activity in touch with the axon spirals around it and spins out several overlapping membrane layers to generate myelin in the PNS and CNS. Outermost and innermost layers of a myelin sheath are the only ones where cytoplasm is ejected.
How do you refer to unmyelinated axons?Both peptidergic and nonpeptidergic C-fiber axons are found in unmyelinated, or type C, fibers, which are used for mechanical sensitivity. They are completely devoid of the myelin envelope, and the Remak fibers that are found in bundles within nerve fibers are formed by Schwann cells that surround them.
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large-scale cancer studies have found that the p53 gene is often mutated in tumor cells. in fact, the gene encoding the p53 protein is mutated in tumor cells more often than any of the other 20,000 human genes. based on this information, why was the bunz study important? large-scale cancer studies have found that the p53 gene is often mutated in tumor cells. in fact, the gene encoding the p53 protein is mutated in tumor cells more often than any of the other 20,000 human genes. based on this information, why was the bunz study important? a deeper understanding of the role of p53 in the cell cycle can improve our understanding of radiation and the damage done to dna. a deeper understanding of the cell cycle checkpoints can improve our understanding of how radiation damages dna and arrests the cell cycle. a deeper understanding of the role of p53 in the cell cycle can improve our understanding of other oncogenes associated with various cancers. a deeper understanding of the role of p53 in the cell cycle can improve our understanding of cancers and perhaps le
Because of the deeper understanding of the role of p53 in the cell cycle can improve our understanding of cancers and perhaps lead to new forms of treatment.
What is the function of p53?Instructions for producing a protein known as tumor protein p53 are found in the TP53 gene (or p53). This protein controls cell division by acting as a tumor suppressor, which means that it prevents cells from growing and dividing (proliferating) too quickly or in an uncontrolled manner.In every cell of the body, the p53 protein is found in the nucleus, where it binds (attaches) to DNA. This protein plays a crucial role in determining whether the DNA will be repaired or the damaged cell will self-destruct when the DNA in a cell is damaged by agents such as toxic chemicals, radiation, or ultraviolet (UV) rays from sunlight. If the DNA damage is fixable, p53 activates additional genes to repair the harm.Learn more about p53 refer :
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this question is about the importance of the fact that restriction recognition sites engineered to be in the mcs should be found nowhere else in the plasmid. if a particular type of restriction recognition site were found in the mcs and one other place in the plasmid, how many pieces would be formed if the plasmid were cut with that restriction enzyme? after those pieces were cut apart and were floating around in the buffer, how many possible ways would there be to ligate those pieces back together? why would it cause problems if we tried do directional cloning if one of the restriction enzymes used cut the plasmid in more than one place
If we do directional cloning of one of the restrictions enzymes used to cut the plasmid in more than one place, then it may cause mutation in the DNA and would lead to various problems in the genetic makeup of the organism.
Restriction enzymes are proteins that cuts the DNA at a particular site. Restriction enzymes are of two types -
Exonucleases: Restrictions exonucleases, such as exonuclease I, exonuclease II, etc., are largely responsible for hydrolyzing the terminal nucleotides from the end of DNA or RNA molecules in either a 5′ to 3′ or 3′ to 5′ direction.Endonuclease: Restrictions endonucleases identify certain base sequences within DNA or RNA molecules and catalyze the breakdown of internal phosphodiester bonds with enzymes like EcoRI, Hind III, and BamHI.The enzymes where they cut the DNA is known as recognition site. DNA molecules contain recognition site that are particular (4–8 base pair long) nucleotide sequences that are recognized by restriction enzymes.
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(2.2.1) Each biological parent contributes one chromosome, half of a chromosome pair, during fertilization. For example, when a sperm fertilizes an egg.
one chromosome from chromosome pair 1 is contributed by the sperm and another pair of chromosome 1 is contributed by the egg. Together, these two
chromosomes, called
O sister chromatids
O homologous chromosomes
O heterozygous chromosomes
O homologous chromatids
Each biological parent contributes one chromosome, half of a chromosome pair, during fertilization. Together, these two chromosomes are called (2) homologous chromosomes.
Fertilization is the process of the fusion of a male and a female gamete. This phenomenon occurs in the sexual method of reproduction. Each of the gamete need to be haploid so that a diploid cell can be generated after fertilization.
Homologous chromosomes are a pair of chromosomes where one chromosome is maternal while the other is paternal. These are similar chromosome with similar genes located at the same locus. The length of homologous chromosomes is also similar.
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Basal metabolism is the energy expended to maintain your body at rest. For most people, what percentage of total energy expenditures is used for basal metabolism?.
60 to 75% of total energy expenditures are used for basal metabolism to maintain your body at rest.
The amount of energy used by a person at rest (when fasting and at body temperature equilibrium) as a result of regular cell and organ function within the body is known as the basal metabolic rate. It makes up roughly 60–75% of a person's daily energy expenditure when they have a sedentary job.
Several illnesses linked to significant weight loss, including cancer, sepsis, chronic pulmonary disease, burns, and HIV/AIDS, are associated with sustained increases in basal metabolic rate; however, it is less clear whether these conditions also result in an increase in total energy expenditure.
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Which of the answer choices is/are an example of post-translational modification?.
Polyadenylation is an example of post-transcriptional modification.
Polyadenylation is process involves adding large repeats of adenine bases to the 3' end of mRNA molecules, known as the poly-A tail.
Post-translational modifications includes phosphorylation, glycosylation, methylation, acetylation, that control almost all aspects of cell biology and pathogenesis. In post-translational modifications one enzyme adds the modifying group and another remove it . Example include proteins are phosphorylated by enzymes known as protein kinases, while protein phosphatases remove such phosphate groups.
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certain unicellular eukaryotes, including diatoms and some yeasts, have mechanisms of nuclear division that resemble intermediate steps in the evolution of mitosis. which of the following is a characteristic feature of nuclear division in these organisms?
The characteristic feature of nuclear division in unicellular eukaryotes is that chromosomes are separated by the mitotic spindle, but the nuclear envelope remains intact during division.
Eukaryotes are organisms with cells that have a nucleus and other membranous organelles. Unicellular is a single-celled organism. Unicellular organisms usually live in 2 ways, namely individually, and in colonies (gathering). Unicellular organisms are simpler than multicellular organisms.
Unicellular eukaryotic organisms are unicellular and eukaryotes. They are membrane-bound true nuclei and other membrane-bound organelles. Examples of eukaryotic unicellular organisms are fungi, yeasts, protozoa, and protists.
In unicellular organisms such as bacteria, cell division is carried out for the process of breeding or producing new individuals to maintain the continuity of the bacterial species.
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Can we hypothesize that if the earth warms up, it will eventually cool off? Why?
liquid produced due aerobic respiration that is one of the 3 major inputs to photosynthesis
Liquid produced due aerobic respiration that is one of the 3 major inputs to photosynthesis are carbon dioxide, water, and sunlight.
Aerobic respiration breaks down glucose and combines the damaged down merchandise with oxygen, making water and carbon dioxide. The carbon dioxide is a waste manufactured from cardio respiratory due to the fact cells do now no longer want it.
Cellular breathing converts oxygen and glucose into water and carbon dioxide. Water and carbon dioxide are by- merchandise and ATP is power this is converted from the process.
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The collective term for various diseases of the heart and blood vessels is ______ disease.
The collective term for various diseases of the heart and blood vessels is cardiovascular disease.
Heart is the main organ of the circulatory system which pumps blood to the whole body. The heart is made up of cardiac muscles that can maintain its contraction and relaxation on its own. There are 4 chambers of the heart: two upper atrium and two lower ventricles.
Blood vessels are the hollow tube like structures that mediate the flow of blood to the whole body. There are three varieties of blood vessels in the human body. These are: arteries, veins and capillaries. Arteries carry blood away from the heart, veins carry blood to the heart and capillaries mediate the exchange of blood at the target site.
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Scientists discover a new organism deep in the amazon rainforest. It is multicellular and produces its own food through photosynthesis. It is most likely in the kingdom.
The multicellular, autotrophic creatures that make up the Kingdom Plantae are.
What is a case study of photosynthesis?Example: The dazzling things of nature that fall into this category are green plants. They complete a cycle of photosynthesis by ingesting carbon dioxide and converting this into carbohydrate (energy storage molecule).
What makes photosynthesis so crucial?The main purpose of photosynthesis is to transform sunlight into chemical energy, which is then stored for later use. This mechanism primarily provides energy to the planet's life systems. By the norms of human engineering, it is not particularly effective, but it gets the job done.
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Where do the atp and nadph produced during the light-dependent reactions go when the process is complete?.
The ATP and NADPH produced during the light-dependent reactions reach the stroma of the chloroplast for the light-independent reactions to be accomplished.
The light-dependent reactions of photosynthesis are the reactions that trap the sunlight energy and convert it into usable forms of energy i.e., ATP and NADPH. This is done by the excitation of electrons and passing it through a series of transporters.
Light-independent reactions are those that use the products of light-dependent reactions in order to synthesize food for the plant in the form of sugars like glucose or sucrose. The first process of light-independent reaction is Calvin cycle.
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at the replisome of prokaryotic replication a. two molecules of polymerase iii are dedicated to lagging strand synthesis while one is dedicated to leading strand synthesis b. none of these c. there are multiple copies of dna polymerase i d. there are only two dna polymerase iii molecules
For prokaryotes, bidirectional replication requires two replisomes for each dividing nucleoid (region containing genetic material but not a nucleus).
Explain about the bidirectional replication?Changes made to one copy of a table are duplicated to a second copy, and changes made to the second copy are repeated back to the first copy, in a process known as bidirectional replication.
DNA replication that is bidirectional occurs in organisms from all of the major kingdoms. DNA is replicated in two directions simultaneously during bidirectional replication, resulting in a leading strand (where replication happens more quickly) and a trailing strand (with slower replication).
The replicating process moves in two directions during bidirectional synthesis. Only one replication fork forms in unidirectional replication. Two replication forks form in bidirectional replication. Only one end of the replication eye moves or grows during unidirectional replication.
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in the lab 10 experiment, what was the logic in choosing staphylococcus aureus and escherichia coli as the test organisms?
The possible logic is that one is Gram-positive and one is Gram-negative.
Staphylococcus aureus is one of the most significant germs that harm humans. It is a Gram-positive bacteria. It is the main contributor to skin and soft tissue infections such as cellulitis, furuncles, and abscesses (boils). S. aureus can cause serious infections such as bloodstream infections, pneumonia, or bone and joint infections, even though most staph infections are not serious. The coliform bacterium Escherichia coli sometimes referred to as E. coli, belongs to the genus Escherichia and is typically found in the lower intestine of warm-blooded creatures. It is a Gram-negative, facultatively anaerobic, rod-shaped, coliform bacteria.
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PLSSS HELP IF YOU TURLY KNOW THISS
Answer:
Energy
Explanation:
it's not/can't be any of the other answers
A food chain shows animals that survive off of each other's existence (ex. grass-rabbit-hawk) and energy is basically a fancy word for food (because food gives us energy).
A food chain represents one possible path that energy can flow through an ecosystem. (food = energy )
Which theory can best explain why people respond differently to the same stimuli?.
Signal detection theory can best explain why people respond differently to the same stimuli.
The ability to distinguish between information-bearing patterns and random patterns that distract from the information is measured using detection theory or signal detection theory. Signal recovery is the separation of such patterns from a masked background in the field of electronics. Signal detection theory distinguishes a person's ability to discriminate the presence and absence of a stimulus (or different stimulus intensities) from the criterion used to respond to those stimuli.
When the signal is present and detected, it is called a hit. A miss occurs when a signal is present but is not detected. A false alarm occurs when a signal is absent but detected, such as hearing your phone ring when no one is calling or hearing a knock at the door when no one is present.
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If plants need light to do photosynthesis, how do they survive when it gets dark?
Where is new lithosphere created
A divergent boundary
B convergent boundary
C transform boundary
18. What term describes any marketable item produced to satisfy wants or needs?
commodity
exchange
Bounty
Price
The term describes any marketable item produced to satisfy wants or needs " commodity".
In economics, goods are things that fulfill human needs and offer usefulness, such as to a customer buying a pleasant product.
The price at something that the dealer's total benefit is increased is the ideal pricing. When the price is too low, the vendor sells a large number of units yet doesn't make the highest possible overall profit.
The perfect price is that equilibrium at which it is possible to obtain excellent advantages as represented by the good or service we are providing. This is essential for anyone who was dedicated to a business endeavor because it is a relatively simple way for achieving better results.
Therefore, the correct answer will be option (a)
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Answer: is A. commodity
Explanation:
i took a test and got it right:)
Can someone please check my work
Answer:
Your answers are correct.
select all of the following that are methods of gene regulation found in eukaryotes but not prokaryotes.
a. blocking mRNA exit from the nucleus
b. splicing exons in alternative ways
c. adding methyl groups to silence genes
The following that are methods of gene regulation found in eukaryotes but not prokaryotes. a. blocking mRNA exit from the nucleus.
Gene law is the process used to manipulate the timing, region and amount wherein genes are expressed. The system may be complicated and is done by means of an expansion of mechanisms, including thru regulatory proteins and chemical change of DNA.
Gene law is an critical part of everyday improvement. Genes are became on and rancid in exceptional patterns all through development to make a mind cell appearance and act different from a liver cellular or a muscle cell, for example. Gene law additionally permits cells to react quickly to modifications of their environments.
Gene pastime is mainly controlled through the charge of transcription of the gene, the system wherein a messenger RNA is produced with the aid of RNA polymerase. signal transduction initiates the transcription technique by way of activating the so-referred to as transcription factors, which might be sequence-particular DNA-binding proteins.
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