Genetic Code- Genetic Tables, Properties of Genetic Code (2024)

Synthesizing a protein with the help of the information in RNA is similar to translating a language to another. A four-letter language is translated to 20 letter language during protein synthesis. There should be a specific relationship among the four bases of DNA and sequence of 20 amino acids in the protein.

What is a Genetic Code?

The genetic code can be defined as the set of certain rules using which the living cells translate the information encoded within genetic material (DNA or mRNA sequences). The ribosomes are responsible to accomplish the process of translation. They link the amino acids in an mRNA-specified (messenger RNA) order using tRNA (transfer RNA ) molecules to carry amino acids and to read the mRNA three nucleotides at a time.

Genetic Code Table

The complete set of relationships among amino acids and codons is said to be a genetic code which is often summarized in a table.

It can be seen that many amino acids are shown in the table by more than one codon. For example, there are six ways to write leucine in mRNA language.

Note:A codon is a sequence of three nucleotides which together form a unit of genetic code in a DNA or RNA molecule.

A key point of the genetic code is its universal nature. This indicates that virtually all species with minor exceptions use the genetic code for protein synthesis.

Properties of Genetic Code

Triplet code
Non-ambiguous and Universal
Degenerate code
Nonoverlapping code
Commaless
Start and Stop Codons
Polarity

These properties of genetic code are explained below.

Triplet code

A codon or a code word is defined as a group of bases that specify an amino acid. There is strong evidence, which proves that a sequence of three nucleotides codes for an amino acid in the protein, i.e., the code is a triplet.

The four bases of nucleotide i.e, (A, G, C, and U) are used to produce three-base codons. The 64 codons involve sense codons (that specify amino acids). Hence, there are 64 codons for 20 amino acids since every codon for one amino acid means that there exist more than code for the same amino acid.

Commaless code

No room for punctuation in between which indicates that every codon is adjacent to the previous one without any nucleotides between them.

Nonoverlapping code

The code is read sequentially in a group of three and a nucleotide which becomes a part of triplet never becomes part of the next triplet.

Polarity

Each triplet is read from 5’ → 3’ direction and the beginning base is 5’ followed by the base in the middle then the last base which is 3’. This implies that the codons have a fixed polarity and if the codon is read in the reverse direction, the base sequence of the codon would reverse and would specify two different proteins.

Degenerate code

Every amino acid except tryptophan (UGG) and methionine (AUG) is coded by various codons, i.e, a few codons are synonyms and this aspect is known as the degeneracy of genetic code. For instance, UGA codes for tryptophan in yeast mitochondria.

Start and Stop Codons

Generally, AUG codon is the initiating or start codon. The polypeptide chain starts either with eukaryotes (methionine) orprokaryotes (N- formylmethionine).

On the other hand,UAG, UAA and UGA are called as termination codons or stop codons. These are not read by any tRNA molecules and they never code for any amino acids.

Non-ambiguous and Universal

The genetic code is non-ambiguous which means a specific codon will only code for a particular amino acid. Also, the same genetic code is seen valid for all the organisms i.e. they are universal.

Exceptions to the Code

The genetic code is universal since similar codons are assigned to identical amino acids along with similar START and STOP signals in the majority of genes in microorganisms and plants. However, a few exceptions have been discovered and most of these include assigning one or two of the STOP codons to an amino acid.

Apart from this, both the codons GUG and AUG may code for methionine as a starting codon, although GUG is meant for valine. This breaks the property of non-ambiguousness. Thus, it can be said that few codes often differs from the universal code or non-ambiguous code.

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Genetic Code- Genetic Tables, Properties of Genetic Code (2024)

FAQs

What is genetic code and properties of genetic code? ›

The genetic code consists of the sequence of bases in DNA or RNA. Groups of three bases form codons, and each codon stands for one amino acid (or start or stop). The codons are read in sequence following the start codon until a stop codon is reached. The genetic code is universal, unambiguous, and redundant.

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How do you solve genetic code table? ›

The genetic code can be read using a codon chart. To use this chart you first locate the first nucleotide in the codon, then the second, and then the third. The chart will then reveal which amino acid is coded for by which codon. The genetic code is degenerate, meaning that each amino acid has more than one codon.

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What does genetic code tell the cell how do you make ____? ›

Genetic code refers to the instructions contained in a gene that tell a cell how to make a specific protein.

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How do these 4 letters end up making A genetic code? ›

Instead, the four letters represent four individual molecules called nucleotides: thymine (T), adenine (A), cytosine (C), and guanine (G). The order or sequence of these bases creates a unique genetic code. These codon 'words' in the genetic code are each three nucleotides long—and there are 64 of them.

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What are the 4 properties of the genetic code? ›

Genetic Code - Properties

They are mostly triplet coded.
They are unambiguous as well as universal in nature.
They have a degenerate code.
They contain start and stop codons.
They showcase polarity.
Their code is mostly non overlapping.
They are commaless, hence have no indication of an end or a beginning.

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What are the 5 important properties of the genetic code? ›

The eight important properties of genetic code are: (1) Code is a Triplet (2) The Code is Degenerate (3) The Code is Non-overlapping (4) The Code is Comma Less (5) The Code is Unambiguous (6) The Code is Universal (7) Co-linearity and (8) Gene-polypeptide Parity.

What does the genetic code table list? ›

Genetic Code Table. The complete set of relationships among amino acids and codons is said to be a genetic code which is often summarized in a table. It can be seen that many amino acids are shown in the table by more than one codon. For example, there are six ways to write leucine in mRNA language.

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How to break genetic code? ›

In this building, Marshall Nirenberg and Heinrich Matthaei discovered the key to breaking the genetic code when they conducted an experiment using a synthetic RNA chain of multiple units of uracil to instruct a chain of amino acids to add phenylalanine.

What is genetic code for all life? ›

DNA (or deoxyribonucleic acid) is a long molecule that contains our unique genetic code. Like a recipe book, it holds the instructions for making all the proteins in our bodies.

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How to learn genetic code? ›

Learn in a systematic way e.g. find the amino acids which have maximum codons and minimum codons, learn them first. Next is, you will notice that for most of the amino acids the first two codons are same and appear only once for each amino acid, but the third codon differs.

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Is the genetic code always read? ›

One of the most interesting discoveries of molecular biology is the near- universal nature of the genetic code. Although some organisms show slight variations in the amino acids assigned to particular codons, the code is always read three bases at a time and in the same direction.

How does genetic code make proteins? ›

Each group of three bases in mRNA constitutes a codon, and each codon specifies a particular amino acid (hence, it is a triplet code). The mRNA sequence is thus used as a template to assemble—in order—the chain of amino acids that form a protein.

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Do chromosomes carry genes? ›

Your chromosomes contain the blueprint for your body – your genes. Almost every cell in the human body contains a copy of this blueprint, mostly stored inside a special sac within the cell called the nucleus. Chromosomes are long strands of a chemical substance called deoxyribonucleic acid (DNA).

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Where is DNA found in A cell? ›

Most DNA is located in the cell nucleus (where it is called nuclear DNA), but a small amount of DNA can also be found in the mitochondria (where it is called mitochondrial DNA or mtDNA). Mitochondria are structures within cells that convert the energy from food into a form that cells can use.

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What is genetic code and its properties Wikipedia? ›

The genetic code is highly similar among all organisms and can be expressed in a simple table with 64 entries. A series of codons in part of a messenger RNA (mRNA) molecule. Each codon consists of three nucleotides, usually corresponding to a single amino acid.

Who proposed genetic code and its properties? ›

Marshall Nirenberg discovered the genetic code. He won the Nobel prize in 1968 along with Robert W. Holley and Har Gobind Khorana for deciphering the genetic code. Nirenberg and Johann Matthaei conducted experiments on protein synthesis using synthetic RNA.

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What is the genetic code quizlet? ›

The genetic code is the set of rules by which information encoded within genetic material (DNA and RNA) is translated into proteins by living cells.

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What is genetic code and its properties PDF? ›

The genetic code is a nonoverlapping code, with each amino acid plus polypeptide initiation and termination specified by RNA codons composed of three nucleotides. SOS in Biochemistry, Jiwaji University, Gwalior. M.Sc. II Semester (2019-20)