Answer:
Blood always moves through the body by the heart’s pumping action. The muscles in the legs assist blood flow by their action. Aiding these actions, the veins have valves in them that prevent the blood from flowing backward.
Explanation:
Answer:
Blood moves throughout the body because the heart pumps blood
Example:
DNA : G T A C G C G T A T A C C G A C A T T C
mRNA: C A U G C G C A U A U G G C U G U A A G
Codons: AUG-CGC-AUA-UGG-CUG-UAA
Anticodons: UAC-GCG-UAU-ACC-GAC-AUU
Amino Acids: Methionone-Arginine-Isoleucine-Tryphtophan-Leucine
Using the example above, transcribe the following DNA strand into mRNA and translate that strand into a polypeptide chain, identifying the codons, anticodons, and amino acid sequence.
1. DNA: A T A C G A A A T C G C G A T C G C G G C G A T T C G G
mRNA:
Codon:
Anticodon:
Amino Acids:
2. DNA: T T T A C G G C C A T C A G G C A A T A C T G G
mRNA:
Codon:
Anitcodon:
Amino Acids:
3. DNA: T A C G G G C C T A T A C G C T A C T A C T CA T G G A T C G G
mRNA:
Codon:
Anitcodon:
Amino Acids:
4. DNA: G T A C G C G T A T A C C G A C A T T C
mRNA:
Codon:
Anitcodon:
Amino Acids:
Transcribe the following DNA strand into mRNA and translate that strand into a polypeptide chain, identifying the codons, anticodons, and amino acid sequence.
DNA: C G A T A C A A T G G A C C C G G T A T G C G A T A T C C
Transcription occurs in the nucleus and translation occurs in the cytosol. Proteins are AUG-CUU-UAG / MET-PRO-VAL-VAL-ARG-ILE-LEU / MET-PRO GLY-TYR-ALA-MET-MET-SER-THR / MET-ALA-TYR-THR-LEU
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Transcription
→ adenine pairs uracil,
→ thymine pairs adenine, and
→ guanine pairs cytosine.
Translation
1.
DNA: A T A C G A A A T C G C G A T C G C G G C G A T T C G G
mRNA: U A U G C U U U A G C G C U A G C G C C G C U A A G C C
Codon: AUG CUU UAG
here we recognize the start codon and a stop codon very close.
Anticodon: UAC GAA AUC GCG AUC GCG GCG AUU CGG
Amino Acids: MET - LEU
2.
DNA: T T T A C G G C C A T C A G G C A A T A C T G G
mRNA: A A A U G C C G G U A G U C C G U U A U G A C C
Codon: AUG CCG GUA GUC CGU UAU GAC
here we ONLY recognize the start codon but no stop codon.
Anitcodon: UAC GGC CAU CAG GCA AUA CUG
Amino Acids: MET - PRO - VAL - VAL - ARG - ILE - LEU
3.
DNA: T A C G G G C C T A T A C G C T A C T A C T C A T G G A T C G G
mRNA:A U G C C C G G A U A U G C G A U G A U G A G U A C C U A G C C
Codon: AUG CCC GGA UAU GCG AUG AUG AGU ACC UAG
here we recognize the start codon and one stop codon.
Anticodon: UAC GGG CCU AUA CGC UAC UAC UCA UGG AUC
Amino Acids: MET - PRO - GLY - TYR - ALA - MET - MET - SER - THR
4.
DNA: G T A C G C G T A T A C C G A C A T T C
mRNA: C A U G C G C A U A U G G C U G U A A G
Codon: AUG CGC AUA UGG CUG UAA
here we recognize the start codon and one stop codon.
Anticodon: UAC GCG UAU ACC GAC AUU
Amino Acids: MET - ALA - TYR - THR - LEU
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Related link: brainly.com/question/9598940?referrer=searchResults
Answer:
Explanation:
1. DNA: A T A C G A A A T C G C G A T C G C G G C G A T T C G G
mRNA: U A U G C U U U A G C G C U A G C G C C G C U A A G C C
Codon: AUG-CUU-UAG-CGC-UAG-CGC-CGC-CGC-UAA- GCC
Anticodon: UAC-GAA-AUC-GCG-UAC-GCG-GCG-GCG-AUU-CGG
Amino Acids: Methionine-Leucine-Stop.
2. DNA: T T T A C G G C C A T C A G G C A A T A C T G G
mRNA: A A A U G C C G G U A G U C C G U U A U G A C C
Codon: AUG-CCG-GUA-GUC-CGU-UAU-GAC
Anitcodon: UAC-GGC-CAU-CAG-GCA-AUA-CUG
Amino Acids: methionine-glycine-histidine-glutamine-alanine-isleucine-leucine
3. DNA: T A C G G G C C T A T A C G C T A C T A C T CA T G G A T C G G
mRNA: A U G C C C G G A U A U G C G A U G A U G A G U A CC U A G C C
Codon: AUG-CCC-GGA-UAU-GCG-AUG-AUG-AGU-ACC-UAG
Anitcodon: UAC-GGG-CCU-AUA-CGC-UAC-UAC-UCA-UGG-AUC
Amino acids: Methionine-glycine-proline-tyrosine-alanine-methionine-methionine-serine-threonine.
4. DNA: G T A C G C G T A T A C C G A C A T T C
mRNA: C A U G C G C A U A U G G C U G U A A G
Codon: AUG-CGC-AUA-UGG-CUG-UAA
Anitcodon: UAC-GCG-UAU-ACC-GAC-AUU
Amino Acids: Methionine-arginine-isoleucine-tryptophan-leucine
5. DNA: C G A T A C A A T G G A C C C G G T A T G C G A T A T C C
mRNA: G C U A U G U U A C C U G G G C C A U A C G C U A U A G G
CODON: AUG-UUA-CCU-GGG-CCA-UAC-GCU-AUA
Anticodons- UAC-AAU-GGA-CCC-GGU-AUG-CGA-UAU
Amino acids: Methionine-leucine-proline-glycine-proline-tyrosine-alanine-isoleucine.
Rain gauge
Wind vane
Anemometer
Barometer
Answer:
Nitrogen-fixing bacteria, microorganisms capable of transforming atmospheric nitrogen into fixed nitrogen (inorganic compounds usable by plants). More than 90 percent of all nitrogen fixation is effected by these organisms, which thus play an important role in the nitrogen cycle.
MARK ME BRAINLIST
Answer:
it lives in the ground and eats the nutrients in the soil
Explanation:
Answer:
There are two mitosis and meiosis.
Answer:
Explanation:
Chlorofluorocarbons: are nonflammable chemicals and have many uses in our life, containing atoms of carbon( C), chlorine(Cl), and fluorine (F).
Chlorofluorocarbons damage the earth's ozone layer.
CFCs was banned in 1996. before banned, they were used in aerosols, refrigerators, air conditioners and many other machines.
there continuous use may also cause global warming.
The chance that the child produced would have nail-patella syndrome from this mating is 1/8 (12.5%) and the chance that the child has alkaptonuria is zero (0%). It is a case of recessive phenotypes.
The answer is incomplete, but I have now included the Figure to answer it. The vertical lines indicate nail-patella syndrome, while horizontal lines indicate alkaptonuria.
Pedigree is a diagram showing the genealogical relationships in different individuals, which is usually used to represent the inheritance pattern of a given phenotype.
In this case, the nail-patella syndrome and alkaptonuria are recessive phenotypes, which means that individuals may be heterozygous carriers but they need to have both mutated alleles to express each condition.
In the pedigree, it is possible to observe that the individual IV5 expresses both syndromes (nail-patella syndrome and alkaptonuria), whereas there is a 1/8 chance that the individual IV2 is a carrier of the nail-patella syndrome.
Learn more about pedigree here: