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Structure of prokaryotic genes.

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HariPrasath404

prokaryoatic gene structue and salient features of gene with definition , histroy.

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Structure of prokaryotic gene PRESENTED BY, HARI PRASATH C. M.Sc BIOCHEMISTRY
DEFINITION: A gene is a specific sequence of DNA containing genetic information required to make a specific protein. TYPES OF GENE BASED ON ORGANISM:  Prokaryotic gene – which is seen in the prokaryotes. Example :- bacteria and cynobacteria.  Eukaryotic gene – which is seen in the higher organisms. Example :- plants and animals. INTRODUCTION TO GENE
HISTROY OF GENE  The classical principles of genetics were denoted by Gregor Mendel in 1865.  On the basis of breeding experiments with peas.  He assumed that each traits is determined by a pair of inherited “factors” which are now called as ‘gene’.  In 1990 Wihelm Johannsen coined the term “GENE”.
PROKARYOTIC GENE STRUCTURE OF PROKERYOTIC GENE :
PROKARYOTIC GENE Prokaryotic gene is composed of three regions : 1) Promoter region 2) RNA coding sequence 3) Terminator region.  Prokaryotic gene is continues and uninterested where there is no introns present.  The region of 5’ of the promoter sequence is called upstream sequence.  The region of 3’ of the terminator sequence is called downstream sequence.
PROKARYOTIC GENE PROMOTER REGION :  This is situated on upstream of the sequence that codes for RNA.  This is the site that interact RNA polymerase before RNA primase (transcription).  Promotor region provides the location and direction initiate transcription.
PROKARYOTIC GENE  At -10 there is sequence TATA or PRIBNOW BOX.  AT -35 another consensus sequence TTGACA.  These two are the most important promoter elements recognized by transcription factors.
PROKARYOTIC GENE RNA CODING SEQUENCE :  The DNA sequence that will become copied into an RNA molecule (RNA transcript).  Starts with the initiator codon and with the terminator codon.  No introns (uninterrupted).  Collinear to its mRNA.
PROKARYOTIC GENE  Any nucleotide present on the left side is denoted by (-) symbol and the region is called upstream elements. Example : -10, -20, -35, etc,…..  Any sequence present on the right side of the start is denoted by (+) symbol called downstream elements. Example : +10, +35, etc,…. TERMINATOR REGION:  The region that signal the RNA polymerase to stop transcription from DNA template.  Transcription termination occurs through the Rho dependent or Rho independent manner.
SALIENT FEATURES OF GENE  Number of gene in each organism is more than the number of chromosomes.  Each gene occupies specific position called locus.  If the position of gene changes, character also change.  Genes can be transmitted from parents to off springs.  Genes may exit in several alternate form called alleles.  Genes are capable of combined together or can be replicated during a cell division.  Gene undergo for sudden changes in position and composition called mutation.  Genes are capable of self duplication producing their own exact copies.
References  https://courses.lumenlearning.com/suny-wmopen-biology1/chapter/outcome- prokaryotic-gene- regulation/#:~:text=The%20DNA%20of%20prokaryotes%20is,together%20in %20blocks%20called%20operons.  https://en.wikipedia.org/wiki/Gene_structure  The cells (fifth edition) by Geoffrey M. Cooper and Robert E. Hausman.  Genes IX by Benjamin Lewin.
Structure of prokaryotic genes.

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Structure of prokaryotic genes.

  • 2. DEFINITION: A gene is a specific sequence of DNA containing genetic information required to make a specific protein. TYPES OF GENE BASED ON ORGANISM:  Prokaryotic gene – which is seen in the prokaryotes. Example :- bacteria and cynobacteria.  Eukaryotic gene – which is seen in the higher organisms. Example :- plants and animals. INTRODUCTION TO GENE
  • 3. HISTROY OF GENE  The classical principles of genetics were denoted by Gregor Mendel in 1865.  On the basis of breeding experiments with peas.  He assumed that each traits is determined by a pair of inherited “factors” which are now called as ‘gene’.  In 1990 Wihelm Johannsen coined the term “GENE”.
  • 4. PROKARYOTIC GENE STRUCTURE OF PROKERYOTIC GENE :
  • 5. PROKARYOTIC GENE Prokaryotic gene is composed of three regions : 1) Promoter region 2) RNA coding sequence 3) Terminator region.  Prokaryotic gene is continues and uninterested where there is no introns present.  The region of 5’ of the promoter sequence is called upstream sequence.  The region of 3’ of the terminator sequence is called downstream sequence.
  • 6. PROKARYOTIC GENE PROMOTER REGION :  This is situated on upstream of the sequence that codes for RNA.  This is the site that interact RNA polymerase before RNA primase (transcription).  Promotor region provides the location and direction initiate transcription.
  • 7. PROKARYOTIC GENE  At -10 there is sequence TATA or PRIBNOW BOX.  AT -35 another consensus sequence TTGACA.  These two are the most important promoter elements recognized by transcription factors.
  • 8. PROKARYOTIC GENE RNA CODING SEQUENCE :  The DNA sequence that will become copied into an RNA molecule (RNA transcript).  Starts with the initiator codon and with the terminator codon.  No introns (uninterrupted).  Collinear to its mRNA.
  • 9. PROKARYOTIC GENE  Any nucleotide present on the left side is denoted by (-) symbol and the region is called upstream elements. Example : -10, -20, -35, etc,…..  Any sequence present on the right side of the start is denoted by (+) symbol called downstream elements. Example : +10, +35, etc,…. TERMINATOR REGION:  The region that signal the RNA polymerase to stop transcription from DNA template.  Transcription termination occurs through the Rho dependent or Rho independent manner.
  • 10. SALIENT FEATURES OF GENE  Number of gene in each organism is more than the number of chromosomes.  Each gene occupies specific position called locus.  If the position of gene changes, character also change.  Genes can be transmitted from parents to off springs.  Genes may exit in several alternate form called alleles.  Genes are capable of combined together or can be replicated during a cell division.  Gene undergo for sudden changes in position and composition called mutation.  Genes are capable of self duplication producing their own exact copies.