True or false in terms of symmetry, the human body is radically symmetrical

Explanation:

Pedigree is like a recorded family tree with its past generations. In the pedigree, Circles represent females and Squares represent males. Now, the Roman numerals represent the generations. The long line (-) represents the marriange line and the bottom line under the parents, represent the line to the children. The shaded shapes are traits that are being tracked in the pedigree. An example of this are earlobes. Attached earlobes means that the recessive trait took over. Free unattached earlobes mean that the dominant trait took over.

That's as much as I can help with... Although, I do hope that this is helpful...

A video recap by Amoeba Sisters explaining pedigrees, summarizing essential concepts related to family inheritance patterns and genetic traits.

In the video recap on pedigrees, they likely delve into the understanding of pedigrees as a visual tool used in genetics to trace the inheritance of traits within a family.

A pedigree is a diagram that shows the occurrence and relationships of a particular genetic trait or disease across several generations in a family. It uses standardized symbols to represent individuals and their relationships, allowing for a clear representation of genetic patterns.

In the video, the Amoeba Sisters would likely cover how to interpret the symbols in a pedigree, like squares for males, circles for females, shaded symbols for affected individuals, and so on.

They may explain how pedigrees can demonstrate whether a trait is dominant or recessive, and how it can provide insights into the likelihood of a child inheriting a particular trait.

Understanding pedigrees is crucial in fields like genetics and genetic counseling, where it helps professionals trace the occurrence of genetic diseases or traits in families.

By analyzing patterns within pedigrees, scientists can make predictions about the inheritance of specific genes and provide information about potential genetic risks.

For such a more question on Amoeba

https://brainly.com/question/18278841

#SPJ6

Answer:

Nitrogenous;Acid-Base and Fluid

Explanation:

The kidney is referred to as an excretory organ because it excretes nitrogenous wastes. It is also a major homeostatic organ because it maintains the electrolyte Acid-Base, and fluid balance of the blood.

Answer:

Nitrogenous wastes,  acid-base, fluid balance.

Explanation:

Answer:

Explanation:

Estuary is a part of a coastal body where the fresh water and stream meet with the ocean.

1. Recreation: estuary is important for recreation activities ( i.e the activities done in our leisure time) like boating, fishing surfing and bird watching.

2. Scientific knowledge: it serves as a basis for laboratories for scientists, for poets to learn, painters to be inspired and acquire knowledge, bird watchers.

3. Education: It provide quality lessons and inspired ideas in biology,geology, chemistry, physics, history , social studies e.t.c.

4. Aesthetic values. It provide aesthetic values and enjoyment for humans.

5. Food: some of the product gotten from estuary like lobsters are consumed as food by humans.

Answer:

Insect

Explanation:

Are you looking for class or kingdom?

Answer:

The honey bee belongs to the INSECT class

Explanation:

it would be true by it causes the earth to heat up or cool down so your answer is true

Answer:

it would be true by it causes the earth to heat up or cool down so your answer is true

Explanation:

it would be true by it causes the earth to heat up or cool down so your answer is true

Answer:

Homeostasis is the state of maintaining a stable

internal

environment despite changing

external

conditions.

Explanation:

got from edge

Homeostasis is the state of maintaining a stable internal environment despite changing external conditions.

Homeostasis is the ability of living organisms to maintain stable internal conditions, despite changes in the external environment. It is a complex, dynamic process that involves multiple physiological systems working together to regulate various parameters such as temperature, blood glucose levels, pH, and others.

These systems use feedback mechanisms to detect and respond to changes, keeping the internal environment within a narrow range of values that are optimal for survival. Maintaining homeostasis is crucial for survival as it allows organisms to adapt to their environment and maintain optimal functioning of their cells, tissues, and organs.

Learn more about homeostasis, here:

https://brainly.com/question/3888340

#SPJ6

Answer:

Explanation:

mRNA is used to produce proteins from genes. rRNA, along with protein, forms the ribosome, which translates mRNA. tRNA is the link between the two other types of RNA.

Answer:

When directed mutagenesis which is also called reverse genetics is used, only a single mutation per genome is introduced. In contrast, the number of mutations per genome introduced by random mutagenesis is usually difficult to control. It is likely that the strain you obtained with a mutation in gene X after random mutagenesis contained an additional mutation or perhaps multiple mutations which ultimately was/were responsible for loss of virulence in your favorite pathogen.

Answer:

if the promoterless lacZ is inserted close to any gene(s) or operon, then the laz gene will also be transcribed when the operon gets expressed. The polycystronic RNA will eventually produce a beta-galactosidase protein(product of lacZ gene) which will cleave X-Gal( structural analog to lactose), which will produce blue chromogenic substance.

prepare LB agar. Allow it to cool, add X-gal before it solidifies, pour to plates.

create grids and patch plate each strain on it. Just pick the strain that looks blue, amplify the sequence upstream of the lacZ and sequence it.

Explanation:

Just pick the strain that looks blue, amplify the sequence upstream of the lacZ, and sequence it.

Answer:

Explanation:

Some autosomal genes may affect the phenotypes of individuals of one sex more than individuals of the other but they play no part in the development of being a male or being a female. this type of gene is thus a sex influenced autosomal gene. The type of inheritance exhibited by this trait in the male goat follows the autosomal dominant pattern of inheritance meaning the for the trait to be expressed, it has to be the dominant allele form on the X chromosome. In the females, this trait follows the autosomal recessive pattern of inheritance such that for a female goat to be bearded, the trait must be inherited as a homozygous recessive trait, while an heterozygous or a homozygous dominant female will be beardless.

The presence of a beard on some goats is determined by an autosomal gene that is dominant in males and recessive in females, exhibiting autosomal inheritance.

This trait exhibits autosomal inheritance. The presence of the beard trait is determined by a gene located on an autosomal chromosome, not on the sex chromosomes. It is dominant in males, which means that even if they have only one copy of the gene, they will exhibit the trait. In females, the gene is recessive, so they must have two copies of the gene to have the trait.

Learn more about Autosomal Inheritance here:

https://brainly.com/question/32270060

#SPJ3

Final answer:

The statement is False. Energy from the sun that enters the Earth system does leave.

Explanation:

The statement is False. Energy from the sun that enters the Earth system does leave. While the Earth system as a whole is a closed system with virtually no mass exchanged between the Earth system and the rest of the universe, energy in the form of solar radiation passes from the Sun to the Earth and Earth emits radiation back out to space. This means that energy does cross the Earth's system boundary, making it a closed system.

I think the organism ii bacteria

Two systems most directly interact in the fuzzy millipede's defense against ants are :

muscular and integumentary

Explanation:

Answer:

Muscular and integumentary

Explanation:

I just did it

Explanation:

Answer:

Dermal Tissue

Dermal Tissue: a group of cells that make up the outermost layer of a plant and function as protection

Location

Outer layer of plant

Function

Protection

Dermal Tissue-Important Structures

Cuticle

Protects from injury

Prevents water loss

Guard cells

Controls gas exchange

Prevents water loss

Explanation:

trust

Answer:

Answer:

Dermal Tissue

Dermal Tissue: a group of cells that make up the outermost layer of a plant and function as protection

Location

Outer layer of plant

Function

Protection

Dermal Tissue-Important Structures

Cuticle

Protects from injury

Prevents water loss

Guard cells

Controls gas exchange

Prevents water loss

Explanation:uoij0

Answer:

1/4.

Explanation:

If the nondisjunction occurs in meiosis II, 4 gametes are formed in which types of gametes are 3. Out of the 4 gametes, 2 are normal, 2 will have aneuploidy as shown in the diagram attached.  Out of the 2 aneuploid gametes, one will have 2 haploid chromosomes while another one will not have any chromosome at all.

Now when this female will mate with a man who has produced normal gametes, each of the gamete produced by this female will have the probability to receive 1 haploid gamete from the male.  After fusion/fertilization, total 4 zygotes which are of 3 types may form. One of the zygotes will have 3 chromosomes i.e. will have trisomy (which will develop into Down's syndrome), one of them will have 1 chromosome i.e. will have monosomy while 2 zygotes will be normal i.e. will be diploid.

So, the probability of a child being born with Down's syndrome will be 1/4.

Answer:

At G1- 8

At G2 - 16

At metaphase - 16

In daughter cells - 8

Explanation:

In the G1 phase which is the growth phase before the S phase (DNA synthesis), the number of DNA double helices present will be 8 double helices.

In the G2 phase, which is the phase after the S phase i. e. doubling of the chromosomes, the number of DNA double helices here increases by which which makes it sixteen and the chromosome number is still 8 because each chromosome has 2 sister chromatids which occurs after replication.

In metaphase there is still sixteen double helices which is eight chromosomes with 2 sister chromatids each lying on the metaphase plate.

After cell division, each daughter cell will have eight double helices each just like the parent.

Answer:

genetic isolation is the answer

Answer:

C

Explanation:

I got it right on usa test prep;)

Answer:

All of this fields of science is very important that provide evidence for evolution. if we look at biology, it shows how the organism change over time. geology can get us information about the fossils, soil and other things and chemistry can show us every molecule in our body to environment.

Explanation:

Biology, geology, and chemistry all the three field of science provide evidence for the evolution of species. Thus, all the options are correct.

Evolution of a species can be defined as the gradual process of development. Evolution is the change in heritable traits of the biological populations of different species over successive generations. Evolutionary processes helps to give rise to diversity at every biological organization level. All the different life forms on earth shares a common ancestor known as the last universal ancestor.

Biology shows fossil record and comparative anatomies. Chemistry shows the age of fossils and their nature. Geology shows that the organisms which live together have separated into different continents with time.

Therefore, all the options are correct.

Learn more about Evolution here:

https://brainly.com/question/13492988

#SPJ6

Answer:

d) 5'-UGUGUGUGUGUGUGUG...-3'

Explanation:

A UG dinucleotide is when UG is repeated.

mRNAs are transcribed and translated as a 5' to 3' molecule. Therefore, the direction should be 5' - 3'.

For the mRNA to be in frame, it must start with UG. The only option that runs 5' - 3' and is in frame for a UG dinucleotide is d.

Har Gobind Khorana's experiment used a synthetic mRNA molecule with a repeating UG dinucleotide sequence. The correct sequence reflecting the direction of transcription is d) 5'-UGUGUGUGUGUGUGUG...

The question refers to an experiment conducted by Har Gobind Khorana and his colleagues, in which a synthetic mRNA molecule with a repeating UG dinucleotide sequence was assembled and translated. mRNA sequences are written from the 5' end to the 3' end, reflecting the direction of transcription. So, the repeating sequence of this mRNA molecule is d) 5'-UGUGUGUGUGUGUGUG...

https://brainly.com/question/22173633

#SPJ3

Answer:

D

Ebola is spread when body fluids (e.g. blood) from a sick individual enter a healthy individual.

Explanation:

i took the question and got it correct. please like and rate my answer. brainliest please?

Answer:

reason is that it uses the -35 region of the trp promoter and -10 region of the lacUV5 promotor, the tac promotor more closely resembles the consensus -35 and -10 sequences than either trp or lac. Tac has 12 out of 12 identiies with the consensus sequences, whereas lac and trp have 9.

Tac promotor is a synthetic, 2hybrid promoter widely used in E.coli for protein production in E.coli using the same induction and repression systems of lac promotor.

Explanation:

The tac promoter directs transcription initiation more efficiently than the trp or lac promoters because it contains hybrid −35 and −10 regions that are more efficiently recognized by RNA polymerase.

Matching the words in the left column to the appropriate blanks in the sentences on the right:

Left column Right column

trp promoter contains the -10 region of the tac promoter

lac promoter contains the -35 region of the tac promoter

-35 region recognized by the α subunit of RNA polymerase

-10 region recognized by the σ subunit of RNA polymerase

transcription initiation the process of starting to synthesize an RNA molecule

consensus sequence a DNA sequence that is common to many promoters

The tac promoter is a hybrid of the lac and trp promoters, containing the 35 region of the lac promoter and the 10 region of the trp promoter.

The -35 region is recognized by the α subunit of RNA polymerase, and the -10 region is recognized by the σ subunit of RNA polymerase.

The tac promoter directs transcription initiation more efficiently than either the trp or lac promoters because it contains consensus sequences for both the -35 and -10 regions.

For such a more question on RNA                                                                                                                                                                         https://brainly.com/question/13939644

#SPJ6

Answer:

i) Acetylcholine.

ii) Neurotransmitter which is released by postganglionic motor neurons in the sympathetic nervous system is Nor-epinephrine.

Answer:

The correct answer is: 1,4' linked polymers of D-glucose which differ in the stereochemistry of this linkage.

Explanation:

Cellulose and amylose are both polysaccharides and polymers of glucose (which means that they are composed of glucose molecules). While cellulose is mostly found on the cell wall of plants and algae, amylose (along with amylopectin) form the main carbohydrate in humans' diets: starch.

While the glucose molecules in amylose are linked by α(1-4) glycosidic bonds, the glucose molecules in cellulose have β(1-4) glycosidic bonds. This particularity is what makes amylose and cellulose compounds differ from one another.

Answer:

1,4' linked polymers of D-glucose which differ in the stereochemistry of this linkage

Explanation:

Cellulose and amylose are polymers of glucose. Amylose's monomeric units are linked by alpha α-1,-4-glycosidic bonds and  cellulose monomeric units are joined by β 1-4 glycosidic bonds. These two substances are carbonhydrates; polysaccharides in particular:  polymeric carbohydrates composed of monosaccharide units linked toghether by glcosidic bonds.

Answer:

Yes, there will still be a chance for the F2 generation to have a ratio 9:3:3:1

Explanation:

According to Mendel's law of segregation, alleles of a gene pair separate at the time of game formation.

According to the Law of independence, the alleles sort independently into the gametes.

Even if the two traits under study are located on the same chromosome, they will segregate and assort independently at the time of gamete formation.

Also, at the time of meiosis, one of the alleles will arise from each parent hence there will still be a chance for the F2 generation to have a 9:3:3:1 ratio.

Crossing over and independent assortment depends on how distant genes are from each other. In the exposed example, if genes are not linked, the phenotypic ratio among the progeny is expected to be 9:3:3:1.

-----------------------------------

⇒   Independent Assortment

Independent assortment law establishes that during gamete formation, the alleles from two or more different genes distribute independently from each other.

In other words, a gamete can receive alleles from different genes that do not depend nor influence each other during segregation.

Each gamete receives alleles that were randomly distributed.

Independent assortment law only applies to independent genes, not linked genes.

⇒  Independent Genes

These genes segregate independently after crossing over because they are located far away from each other in the same chromosome, or they are at different chromosomes.

⇒  Linked Genes

These genes are too close to each other in the same chromosome, that they do not segregate independently.

They are placed so close, that they can not distribute independently from each other, and they inherit together more frequently.

Crossing-over between linked genes that are very close to each other in the chromosome is not that common.

⇒   Crossing over events

Crossing-over during meiosis occurs randomly in different positions all along the chromosome.

Its occurrence frequency in the area between two genes depends on the distance between them.

A short distance between genes is a very little target for crossing-over to occur, which means that only a few of them will happen, compared with the number of events between genes that are more separated from each other.

There are few chances of crossing over and recombination events between two linked genes. These genes are strongly bounded.

⇒   Distances in Map Units

When the distance between genes is inferior to 50 Map Units, genes are considered to be linked, and they do not assort independently.

When the distance between two genes equals or exceeds 50 Map Units, genes are not linked and they distribute independently from each other.

                          **************************************

Would you expect an F2 generation of 9:3:3:1 for a dihybrid cross?

According to this framework, we could say that the probability of getting a phenotypic ratio 9:3:3:1 among the F2 depends on how distant genes are from each other.

We already know that they are placed in the same chromosome.

If the distance between them is inferior than 50 MU,

If the distance between them equals or exceeds 50 MU,

----------------------

Related link: https://brainly.com/question/8661973?referrer=searchResults

                    https://brainly.com/question/5319966?referrer=searchResults                  

Answer:

See answer below

Explanation:

Hi there,

Assuming this DNA strand is fully capable of being mature mRNA (5' m7G cap and PolyA tail), nucleotides lead to an mRNA codon, which is 3 nucleotides per codon. In turn, 1 codon leads to 1 amino acid. However, as a single strand, it must be capable of terminating translation, which always requires a stop codon, and thus 3 nucleotides. Hence, we must subtract this from the total amount of codons first.

[tex]36 \ ncltd \ \frac{1 \ codon}{3 \ ncltd} = 12 \ codon\\12 \ codon - 1 \ codon \ = 11 \ codon\\11 \ codons\ \frac{1 A.A.}{1 \ codon} = 11 \ A. A.[/tex]

Hence, only 11 amino acids will be coded by a single DNA strand 36 ncltd long.

thanks,

Answer:

Explanation:

1. It is mRNA because it is the only type of RNA that is polyadenylated and the poly (A) tail at the 3' end of it.

2. It would be able to base pair with the strands of poly(T) on the beads by base pairing, and it can stick to poly (T) on the beasd.

3. DNA would not be found in the sample, as the poly (A) tail is not encoded in the DNA and long runs of T are rare in DNA.

Answer:

Seen on the explanation.

Explanation:

Glandular tissues are a mixture of both endocrine (ductless, hormones are secreted directly into the blood) and exocrine (have ducts, hormones are secreted into surfaces) glands.

The pancreas and salivary glands are both exocrine glands although the pancreas has an endocrine function via the islets of Langerhans, both aid in the digestion of food.

The pancreas lacks striated ducts and the intralobular duct is similar to the intercalated duct of salivary glands. It often has a collapsed lumens and the cells are cuboidal with little cytoplasmic staining in contrast to acinar cells.

The pancreas can also be distinguished from the parotid gland by the presence of the pancreatic islet (islets of langerharns) which has an endocrine function.

The correct feature unique to the pancreas that would help distinguish it from the salivary gland is the presence of both exocrine and endocrine functions.

The pancreas is a unique organ in that it has both exocrine and endocrine functions, which is a key feature that distinguishes it from the salivary gland. The exocrine function of the pancreas is responsible for the production of digestive enzymes that are secreted into the duodenum to aid in the digestion of proteins, fats, and carbohydrates. These enzymes are produced by the acinar cells and are transported through a system of ducts, eventually emptying into the pancreatic duct and then into the duodenum.

In contrast, the endocrine function of the pancreas involves the production of hormones such as insulin and glucagon by the islets of Langerhans. These hormones are secreted directly into the bloodstream and are crucial for the regulation of blood glucose levels.

On the other hand, the salivary gland is primarily an exocrine gland, composed of serous and mucous cells that produce saliva. Saliva contains enzymes like salivary amylase, which begins the digestion of carbohydrates in the mouth, and it also contains mucus to lubricate food for swallowing. However, the salivary gland does not have an endocrine function.

Therefore, the presence of both digestive enzyme-secreting exocrine tissue and hormone-secreting endocrine tissue is the distinguishing feature of the pancreas that sets it apart from the salivary gland.

The complete question - contain a image added below-

This glandular tissue resembles that of the salivary gland (clusters of zymogenic cells). What feature unique to the pancreas would help you to distinguish it from the salivary gland?