Blood flow
The necessity of the normal pattern of blood flow through the heart is graphically illustrated in a pathology known as Transposition of the Great Vessels (TGV). About 4/10,000 infants are born with the congenital heart defect TGV. In this disorder, the origin of the aorta and the pulmonary trunk are switched, however the destinations of these vessels are normal. You may have to do some online research to find a diagram and a description in order to understand this pathology.
1. Select each answer choice that describes the NORMAL sequence of structures through which blood flows, starting with vena cavae. Note that not all structures are listed and that more than one answer may be correct.

a. Bicuspid → right ventricle → aortic valve → pulmonary circulation
b. Right atrium → semilunar valve right ventricle → AV valve → systemic circulation
c. Left atrium → bicuspid → left ventricle → AV valve → systemic circulation
d. Tricuspid → right ventricle → pulmonary valve → pulmonary circulation

Answer:

The DNA analysis is very important in evolutionary biology because the level of homology among sequences can be used for tracing the evolutionary relationships among populations, species, genera, families, orders, etc.

Explanation:

The DNA is key for phylogenetic inference because the order of the nucleotide bases in a DNA sequence enables to classify the biodiversity in the tree of life

Final answer:

The saying "Don't judge a book by its cover" underscores the importance of DNA analysis in understanding evolutionary relationships. It illustrates that species with similar appearances may be genetically distant, while those looking different can share significant genetic overlap, such as humans and chimpanzees sharing around 98% of their DNA, indicating a common ancestry.

Explanation:

The saying "Don't judge a book by its cover" applies to evolution by highlighting that the external appearance of species can be deceptive when it comes to their genetic relatedness. With the aid of DNA technology, scientists can directly compare the genes of different species. For instance, humans and chimpanzees share approximately 98% of their DNA, which suggests a recent common ancestor, supporting the theory of evolution.

Phylogenetic trees are constructed using DNA analysis to illustrate the connections between species. The more similar the DNA sequences are, the more recently two species likely shared a common ancestor. Mutations serve as a molecular clock to trace back the lineages and construct these trees. These genetic similarities and differences are powerful tools for understanding the vast evolutionary journey of life on Earth.

Answer and Explanation:

We need to know that 1% of recombination frequency = 1 map unit = 1cm. And that the maximum recombination frequency is always 50%.

The map unit is the distance between the pair of genes for which one of the 100 meiotic products results in a recombinant one.

The recombination frequencies between two genes determine their distance in the chromosome, measured in map units. So, if we know the recombination frequencies, we can calculate distances between the four genes in the problem and we can figure the genes order out. This is:

Recombination frequencies:

We know that 15 plus 4 equals 19. So we can infer that we have the gen sequence A--B--D, because the distance between A-B= 15, and the distance between B-D=4, and finally the distance between A-D=19.

A----B----D

  15↔4

      19

We also know that 11 + 19 = 30. So we can assume that C is next to A at a distance of 11 MU.

C----A-----B---D

   11   15 ↔ 4

     11 ↔19    

         30                

The gene order is C, A, B, D

The gene order on the chromosome, based on given recombination frequencies, is most likely B, D, A, C. The recombination frequency corresponds to the relative distances between the genes on the chromosome, and is measured in centimorgans (cM).

In order to determine the gene order based on given recombination frequencies, we'll use the principle that the recombination frequency between two genes corresponds to their relative distances on the chromosome. Recombination frequencies are measured in centimorgans (cM), where 1 cM equals a 1% chance of recombination occurring between two genes.

First, sum the given frequencies: A-B (15%) + B-C (26%) + C-D (30%) = 71%. However, B-D is only 4%, implying that B and D are very close. The discrepancy can be explained by double crossovers, which are not counted. Thus, the order is most likely B, D, A, C, based on their respective distances from each other.

Next, to find the distance between genes, subtract the lesser frequency from the greater: B-A (15%) - B-D (4%) = 11 cM, and C-D (30%) - C-A (11%) = 19 cM. We can now confirm that the gene order (from least to greatest) appears to be B, D, A, C.

https://brainly.com/question/30882779

#SPJ3

Answer:

The correct answers are "order; no; order; plant species A and plant species B".

Explanation:

Species are categorized in different taxonomic ranks according to physical and genetic features that establish the degree of similarity between species.  For instance, two species that are in the same order have a more recent common ancestor than two species that have the same class. Also, two species that have the same genus share the other taxonomic ranks that are in an upper section. In this case, two plants in the same family are in the same order (the next taxonomic rank) however, two plants that are in the same order not necessary are in the same family.

Final answer:

Plants are classified into hierarchical taxonomic groups. Two plants in the same family are in the same order, but two plants in the same order are not necessarily in the same family. The more recent common ancestor can be determined based on whether the plants are in the same order or the same class.

Explanation:

In biology, organisms are classified into hierarchical taxonomic groups. Two plants in the same family are in the same order. However, two plants in the same order are not necessarily in the same family. The closeness of a common ancestor can be determined by looking at whether the plants are in the same order or in the same class. If plant species A and plant species B are in the same family, while plant species C is in a different family, the pair of species A and B likely has the more recent common ancestor.

Answer:

it’s b

Explanation:

Answer:

b

Explanation:

Answer:Sleep helps keep your heart healthy

A regular sleep pattern can help to lower the levels of stress and inflammation to your cardiovascular system, which in turn can reduce your chances of a heart condition.

Explanation:

Hope this helps

Stay Safe

plz give me brainiest

Answer:

sleep helps your body get energy for the next day.

It is true beacuse you learn it in school and the next day when you wake up you dont feel exhausted or weak. That only happens when you run outside too much. you shouldnt do that during this time, even during quarinten

Explanation:

Energy packets interact with the clouds to cool the planet is given below.

Explanation:

1.  Solar radiation is reflected by the clouds' surfaces. ... The reflection helps to keep the heat in the atmosphere, while the passing through allows the heat to escape the Earth system.

2.Low, thick clouds primarily reflect solar radiation and cool the surface of the Earth. High, thin clouds primarily transmit incoming solar radiation; at the same time, they trap some of the outgoing infrared radiation emitted by the Earth and radiate it back downward, thereby warming the surface of the Earth.

3.Air in the atmosphere acts as a fluid. The sun's radiation strikes the ground, thus warming the rocks. As the rock's temperature rises due to conduction, heat energy is released into the atmosphere, forming a bubble of air which is warmer than the surrounding air. This bubble of air rises into the atmosphere.

4.Once in the Earth's atmosphere, clouds and the surface absorb the solar energy. The ground heats up and re-emits energy as longwave radiation in the form of infrared rays. Earth emits longwave radiation because Earth is cooler than the sun and has less energy available to give off

5.Clouds both cool and warm the earth's surface. They cool the earth by bouncing sunlight back into the atmosphere; they warm it by bouncing light down to Earth's surface. The net cloud effect is what scientists need to obtain. To do that, they measured the total amount of sunlight in a cloudy day.

Answer: plant--the absorption of water by the roots

Explanation: plants root aids the absorption of water and nutrients from the soil. Water is an important constittuents in plants when's its not adequate it could lead to wilting of the plant. Attach to the root is root hair this is what help in absorption of water and nutrients from the soil before it is been transported round the cell by xylem tissue. Water is moved through osmotic pressure from the region of higher concentration to low. The process of photosynthesis in plant requires water without the function of the root for absorption plants cannot actively photosynthesis. Hence root play an important role in water transport in plant .

Transpiration is loss of water from leave surface. The water been loss is

Answer:

2 invasive species

Explanation:

If one species over grows the other there would be little to no genetic diversity. :)

Answer: Its D: Interbreeding of animals

Answer:

Primary succession occurs following an opening of a pristine habitat. Secondary succession is a response to a disturbance.

Primary and secondary succession are two types of ecological succession, which describe the processes of ecosystem development and change over time. Here's an explanation of the differences between primary and secondary succession, along with examples for each:

Primary succession occurs in areas that are devoid of soil or lack any significant life forms. It starts from bare rock, lava flows, sand dunes, or newly formed land surfaces. The process begins with pioneer species, such as lichens and mosses, that can colonize the barren environment.

Secondary succession occurs in areas that have previously supported life but have been disturbed or disrupted by events such as fires, hurricanes, or human activities (e.g., deforestation, abandoned agricultural land).

Therefore, primary succession occurs in areas without soil or previous life, starting from bare rock or other non-living substrates. Secondary succession occurs in areas with existing soil and previous life, following disturbances that disrupt the established ecosystem.

For more details regarding primary succession, visit:

https://brainly.com/question/1785275

#SPJ2

Answer: Geologic time is divided into units. Major changes in the earth's surface or climate and the extinction of species help to divide the time scale into smaller units.

Explanation: Rocks grouped within each unit contain a similar fossil record.

Answer:

The consequence of this error will be the waste of material, since several nucleotides were placed in the reaction and will not be used.

Explanation:

There are several DNA sequencing protocols and although we don't know which one the GeneTech, Inc. employee is using, we can say that the fluorescence-labeled di-deoxyribonucleoside triphosphates will be used to make countless copies of the DNA particle that he wants to sequence.

As we know, DNA replication separates the DNA strands and uses each strand to make copies of new DNA molecules. These copies are made with the DNA polymerase enzyme by adding deoxyribonucleosides to the new tapes. As the enzyme is highly regulated and has a DNA strand as a template for the new strands, it will not add nucleotides beyond what is necessary.

Therefore, by placing excess di-deoxyribonucleoside triphosphates in the reaction, the consequence will be just the waste of product.

Answer:

Explanation:

1. Meiosis is the process of cell division in which one cell is divided into four daughter cell, each contains equal number of chromosome, half the number of chromosomes as compared to parental cell.

2. In meiosis I, DNA duplication occurs but the sister chromatids are not separated, only homologous pair of chromosomes are separated, so this is called reductional division.

3. In meiosis II, chromatids are pulled apart and and are separated into different chromosomes, so it is called equational division. There is no DNA duplication in meiosis II.

The correct stage of cell division for the photo showing 21 pairs of sister chromatids being pulled apart in a rat cell is Anaphase of mitosis.

The correct answer to this question would be c) Anaphase of mitosis. During the anaphase stage of mitosis, the sister chromatids of each chromosome are being pulled apart to opposite ends of the cell. We know it must be mitosis because the cell in the micrograph is a somatic (body) cell with a diploid number of chromosomes. In a rat, the diploid number is 42 (21 pairs), matching the number of pairs of sister chromatids being pulled apart.

https://brainly.com/question/34653200

#SPJ3

Answer:

reflection

Explanation:

Answer:

B. Public libraries with lots of books.

Public libraries with lots of books support a circular economy.

The correct option is B. Public libraries with lots of books.

A circular economy involves markets that supply incentives to reusing merchandise, rather than scrapping them and then extracting new sources. In such a financial system, all kinds of waste, including clothes, scrap metal, and obsolete electronics, are back into the economy or used more efficaciously.

A circular economy is a version of manufacturing and intake, which includes sharing, leasing, reusing, repairing, refurbishing and recycling present substances and products as long as viable.

it is a trade to the model wherein resources are mined, made into products, after which turn out to be waste. A circular economy system reduces material use, redesigns materials to be much less useful resources in-depth, and recaptures “waste” as a resource to fabricate new materials and products.

Learn more about the circular economy here https://brainly.com/question/15171941

#SPJ2

Answer:

A gene cluster controlled by a single promoter that transcribes to a single mRNA strand

Explanation:

Operon are set of genes transcribed under the control of an operator gene.It consists of an operator, promoter, regulator and structural genes.

An operon is very important and is regarded as the functional unit of transcription and genetic regulation.

It is also known as a gene cluster controlled by a single promoter that transcribes to a single mRNA strand

An operon is a gene cluster controlled by a single promoter that transcribes to a single mRNA strand.

An operon is a gene cluster controlled by a single promoter that transcribes to a single mRNA strand. It consists of multiple genes that are transcribed together as a single unit in prokaryotic cells. The expression of the operon can be activated or repressed depending on cellular needs and the surrounding environment.

https://brainly.com/question/29752304

#SPJ11

Answer:

10 minutes

Explanation:

Answer:

The sodium-potassium pump carries out a form of active transport—that is, its pumping of ions against their gradients requires the addition of energy from an outside source. That source is adenosine triphosphate (ATP), the principal energy-carrying molecule of the cell.

Explanation:

The sodium-potassium pump is vital for establishing a neuron's resting potential by creating a negative charge inside the neuron and using ATP to pump ions against their concentration gradients.

The sodium-potassium pump plays a crucial role in maintaining the resting potential of a neuron. This active transport mechanism uses ATP to move sodium ions out of the neuron and potassium ions into it, both against their concentration gradients. For every ATP consumed, three sodium ions are exported and two potassium ions are imported, which helps to establish a net negative charge inside the neuron. The difference in charge across the cell membrane is essential for the transmission of nerve impulses as it keeps the neuron ready to respond to stimulation.

The sodium-potassium pump is a mechanism of active transport that moves sodium ions out of cells and potassium ions into cells. It helps to maintain a difference in charge across the cell membrane of the neuron, creating an electrical gradient called resting potential. The pump moves both ions from areas of lower to higher concentration, using energy from ATP and carrier proteins in the cell membrane.

Answer:

The origin could be a different DNA plasmid.

Explanation:

The band that migrates at a slow rate is probably a full plasmid that is selected in a few kanamycin-resistant colonies. However there is a possibility that some plasmids that were religated after the cut with Hind III produced some ligations of more than one plasmid creating a double resistance plasmid, for instance.

Final answer:

The slow band observed in a few colonies during electrophoresis in this control experiment can be attributed to the ligation process. When the plasmid is religated, it is possible for an extra piece of DNA to be incorporated, resulting in the higher migrating band in the gel.

Explanation:

In this control experiment, a plasmid containing a HindIII recognition sequence within a kanamycin resistance gene is cut with HindIII, religated, and used to transform E.coli K12 cells. The kanamycin-resistant colonies are then selected and the plasmid DNA from these colonies is subjected to electrophoresis. Most of the colonies produce single bands that migrate at the same rate as the original intact plasmid. However, a few colonies produce two bands, one of original size and one that migrates much higher in the gel.

The origin of this slow band can be attributed to the ligation process. When the plasmid is religated after being cut with HindIII, it is possible for the religation to result in the formation of a circular plasmid with an extra piece of DNA. This extra piece of DNA could be from a different region of the plasmid, resulting in the higher migrating band in the gel.

Answer:

Explanation:

Observed phenotype(o)Expected(e) (o-e) (o-e)²/ e

Type A, normal RBCs 48 42 6 0.86

Type O, normal RBCs 18 14 4 1.14

Type A,sickle cell trait 92 84 8 0.76

Type O,sickle cell trait 33 28 5 0.89

Type A,sickle cell Dx 27 42 -15 5.36

Type O, sickle cell Dx 6 14 -8 4.57

a. chi-square value x² = 13.58

b. the degrees of freedom (df).

df = 6 – 1 = 5

c. Using the Critical Values Table, we determine the p value. p < 0.05 (0.025 < p <0.01)

d. To Interpret the p value as it relates to these data and explain the significance.

Since p < 0.05, the null hypothesis is rejected, this suggests that there is a statistically significant

difference between the observed and expected data. Therefore, the difference between the observed and expected data is not solely due to chance.

e. From what you know about hemoglobin, sickle cell disease, and blood type, what selection pressure is acting on this population of children causing the null hypothesis to be rejected? Explain your answer. (Hint: Look at the actual

differences between the observed and expected numbers).

This population of individuals is isolated on a small Pacific island on which very little or no quality healthcare is available. Thus, there is selection against the children with sickle cell disease. The presence of this selection pressure distort the observed numbers from the expected values, causing the null hypothesis to be rejected, which suggests that something other than chance is acting on the population which would be the selection against the SS genotype in this case.

Answer:

x2= 13.58

Explanation:

χ2 =sum ( o− e) ^2 /e

χ2 = 13.58

degree of freedom = 6 – 1 = 5

using the critical values table,

P value.

P < 0.05 (0.025 < P < 0.01)

As P < 0.05, the null hypothesis is rejected,

This indicates that there is a statistically significant difference between the observed and expected data.

Accept------ Alternative hypothesis :

================

null hypothesis :

there was NO significant difference between the observed and expected data.

Alternative hypothesis :

there was significant difference between the observed and expected data.

Answer:

Archaebacteria, Eubacteria, Fungi, Protista, Plants, Animals

Explanation:

Answer:

food-induced anaphylaxis

Explanation:

Peanut allergy involves life-threathening symptoms such as skin reactions such as hives,  itching in the mouth and throat, a runny nose, diarrhea or vomiting, shortness of breath or wheezing and digestive problems.

Sympotoms of peanut allergy is the result of food-induced anaphylaxis, a serious allergic reaction which require treatment with an epinephrine injector.

Peanut allergy are caused when immune systme mistakenly identifies peanut proteins as harmful. With the Direct or indirect contact of peanuts allows  immune system to release such symptom that causes chemicals into the bloodstream.

Hence, the correct answer is food-induced anaphylaxis.

Answer:

The food Induces Anaphylaxis

Explanation:

Peanut allergy is more frequent in children and it occurs due to a medical condition called Anaphylaxis.

Peanut contains protein, symptoms occur when protein in peanut are been seen or read by the immune system as something harmful leading to the release of chemicals in the body the shows the various allergy symptoms.

People could take in peanut through direct consumption of peanut and its product, through body contact with it or Indirectly

this occurs when peanut is accidentally processed with food product leading to it consumption. All this can lead to allergy reaction from Anaphylaxis.

Children with allergy to peanut often outgrow it but there is possibility of it to occur again.

same i miss my friends :((

Answer:same I miss everyone but I think we are going back to school soon

Explanation:

Answer:

Explanation:

we have three strains.

the first  is the wild type which has tryptophan mRNA which gets degraded rapidly and tryptophan synthase which is stable. therefore, in the presence of tryptophan, no new mRNA is formed and whatever tryptophan synthase was present would be diluted out as cells continue to divide.

Strain A has stable mRNA and stable tryptophan synthase. so since the mRNA is present, new enzyme will continue to form from it. However, since no new mRNA is formed, the enzyme activity will get diluted as cells divide, but at a much slower rate than the wild type.

in Strain B , synthase is rapidly degraded and no new mRNA is formed. so the tryptophan synthase activity would decrease drastically.

Based on the conditions presented, we can expect a decrease in tryptophan synthase activity in all strains upon the addition of tryptophan, due to factors like mRNA instability, enzymatic dilution, and rapid enzymatic degradation.

To evaluate the potential changes in tryptophan synthase activity upon the addition of tryptophan, the following can be considered:

https://brainly.com/question/28136635

#SPJ3

Final answer:

One half or one rod of condensed chromatin is known as a c) chromatid. The two identical halves of a chromosome are sister chromatids, and they are connected at a structure called the centromere. The first level of DNA organization is aided by histones.

Explanation:

One half of condensed chromatin is called a chromatid. During the cell cycle, specifically after the DNA has replicated during the S phase, eukaryotic DNA condenses and coils into an X-shaped structure known as a chromosome. This chromosome is composed of two identical parts referred to as sister chromatids. These sister chromatids are held together at a region termed the centromere. Before the cell proceeds to division through mitosis, these chromatids are attached at their centromeres, and they will eventually separate to be allocated to each daughter cell.

The correct answer is C. chromatid. Furthermore, in a eukaryotic cell, the first level of DNA organization is maintained by histones which help package the DNA into structural units called nucleosomes. The histones and chaperone proteins aid in condensing the DNA and preventing it from becoming tangled.

Final answer:

Under normal circumstances, amino acids, glucose, NaCl, and plasma appear in the ultrafiltrate. Albumin, red blood cells, and white blood cells are considered abnormal.

Explanation:

Under normal circumstances, the appearance of substances in the ultrafiltrate is as follows:

Normal: Amino acids, glucose, NaCl, and plasma

Abnormal: Albumin (a protein), red blood cells, white blood cells

In normal conditions, substances like albumin and blood cells should not be found in the ultrafiltrate. If they are present, it indicates abnormal circumstances such as kidney damage or disease.

Answer:

D- Estuary

Explanation:

estuaries are where the tide meets a stream, they happen above the water/not very deep in the water

Answer:

I think it is D

 I have studied this before. :)

Final answer:

A white dwarf is the core remnant of a star that has shed its outer layers to form a planetary nebula, and eventually cools into a white dwarf. There are more white dwarfs than planetary nebulae because nebulae are short-lived. In stellar evolution, white dwarfs can be involved in events like novas and Type Ia supernovae when in binary systems.

Explanation:

A white dwarf and a planetary nebula are related in the final stages of a star's life cycle. When a star of a certain size exhausts its nuclear fuel, it expands and sheds its outer layers, creating a planetary nebula. The core that remains eventually becomes a white dwarf, which is the dense remnant of the star's core. Over time, the planetary nebula disperses into space, leaving the white dwarf. This explains why there are more white dwarfs than planetary nebulas in the Galaxy since the planetary nebulas are ephemeral, while white dwarfs can exist for billions of years before cooling to become black dwarfs.

In the Orion Nebula, an active star-forming region, it would be unlikely to find white dwarfs because this nebula is relatively young, and stars within it have not yet evolved to that stage of their life cycle. Additionally, in binary star systems, a white dwarf can receive material from its companion star, potentially leading to novas or even Type Ia supernovae if certain conditions are met, such as exceeding the Chandrasekhar limit or the merger of two white dwarfs.

White dwarfs differ from neutron stars in that a white dwarf is supported against gravity by electron degeneracy pressure, whereas a neutron star is supported by neutron degeneracy pressure. Both are dense, collapsed stars, but neutron stars are the denser and smaller remnants of supernova explosions of more massive stars, while white dwarfs are the remnants of less massive stars.

Answer:Here they are.

Explanation:

Cell Membrane

   The thin layer of protein and fat that surrounds the cell. The cell membrane is semipermeable, allowing some substances to pass into the cell and blocking others.

Centrosome (Microtubule Organizing Center)

   A small body located near the nucleus - it has a dense center and radiating tubules. The centrosomes is where microtubules are made. During cell division (mitosis), the centrosome divides and the two parts move to opposite sides of the dividing cell. The centriole is the dense center of the centrosome.

Cytoplasm

   The jellylike material outside the cell nucleus in which the organelles are located.

Golgi body (Golgi Apparatus/Golgi Complex)

   A flattened, layered, sac-like organelle that looks like a stack of pancakes and is located near the nucleus. It produces the membranes that surround the lysosomes. The Golgi body packages proteins and carbohydrates into membrane-bound vesicles for “export” from the cell.

Lysosome (Cell Vesicles)

   Round organelles surrounded by a membrane and containing digestive enzymes. This is where the digestion of cell nutrients takes place.

Mitochondrion

   Spherical to rod-shaped organelles with a double membrane. The inner membrane is infolded many times, forming a series of projections (called cristae). The mitochondrion converts the energy stored in glucose into ATP (adenosine triphosphate) for the cell.

Nuclear Membrane

   The membrane that surrounds the nucleus.

Nucleolus

   An organelle within the nucleus - it is where ribosomal RNA is produced. Some cells have more than one nucleolus.

Nucleus

   Spherical body containing many organelles, including the nucleolus. The nucleus controls many of the functions of the cell (by controlling protein synthesis) and contains DNA (in chromosomes). The nucleus is surrounded by the nuclear membrane.

Ribosome

   Small organelles composed of RNA-rich cytoplasmic granules that are sites of protein synthesis.

Rough Endoplasmic Reticulum (Rough ER)

   A vast system of interconnected, membranous, infolded and convoluted sacks that are located in the cell’s cytoplasm (the ER is continuous with the outer nuclear membrane). Rough ER is covered with ribosomes that give it a rough appearance. Rough ER transports materials through the cell and produces proteins in sacks called cisternae (which are sent to the Golgi body, or inserted into the cell membrane).

Smooth Endoplasmic Reticulum (Smooth ER)

   A vast system of interconnected, membranous, infolded and convoluted tubes that are located in the cell’s cytoplasm (the ER is continuous with the outer nuclear membrane). The space within the ER is called the ER lumen. Smooth ER transports materials through the cell. It contains enzymes and produces and digests lipids (fats) and membrane proteins; smooth ER buds off from rough ER, moving the newly-made proteins and lipids to the Golgi body, lysosomes, and membranes.

Vacuole

   Fluid-filled, membrane-surrounded cavities inside a cell. The vacuole fills with food being digested and waste material that is on its way out of the cell.

Answer:

cytoplasm

cell membrane

mitochondrion

chloroplast

ER

Nucleus

Golgi Apparatus

Nuclear Envelope

Ribosom  

Lysosomes

Explanation:

Hope this helps!

Answer:

It is miRNAs or microRNA

I hope this helps

Answer: Complementary RNA (cRNA) is a copy of a strand of RNA that will bind to the appropriate region of the original molecule.

Explanation: If the original RNA stand had a base sequence of AUU, for example, the sequence of the cRNA strand would be UAA. I hope this helps :).