Upload File

with...every time a cell divides. rna primase dna polymerase dna ligase lagging strand helicase dna...

  • Home
  • Documents
  • with...every time a cell divides. RNA PRIMASE DNA POLYMERASE DNA LIGASE LAGGING STRAND HELICASE DNA POLYMERASE LEADING STRAND The endoplasmic reticulum (ER) is the first stop for proteins
29

Upload: ngodan

Post on 18-Apr-2018

221 views

Category:

Documents


3 download

Report

TRANSCRIPT

Page 1: with...every time a cell divides. RNA PRIMASE DNA POLYMERASE DNA LIGASE LAGGING STRAND HELICASE DNA POLYMERASE LEADING STRAND The endoplasmic reticulum (ER) is the first stop for proteins
Page 2: with...every time a cell divides. RNA PRIMASE DNA POLYMERASE DNA LIGASE LAGGING STRAND HELICASE DNA POLYMERASE LEADING STRAND The endoplasmic reticulum (ER) is the first stop for proteins
Page 3: with...every time a cell divides. RNA PRIMASE DNA POLYMERASE DNA LIGASE LAGGING STRAND HELICASE DNA POLYMERASE LEADING STRAND The endoplasmic reticulum (ER) is the first stop for proteins
Page 4: with...every time a cell divides. RNA PRIMASE DNA POLYMERASE DNA LIGASE LAGGING STRAND HELICASE DNA POLYMERASE LEADING STRAND The endoplasmic reticulum (ER) is the first stop for proteins
Page 5: with...every time a cell divides. RNA PRIMASE DNA POLYMERASE DNA LIGASE LAGGING STRAND HELICASE DNA POLYMERASE LEADING STRAND The endoplasmic reticulum (ER) is the first stop for proteins
Page 6: with...every time a cell divides. RNA PRIMASE DNA POLYMERASE DNA LIGASE LAGGING STRAND HELICASE DNA POLYMERASE LEADING STRAND The endoplasmic reticulum (ER) is the first stop for proteins
Page 7: with...every time a cell divides. RNA PRIMASE DNA POLYMERASE DNA LIGASE LAGGING STRAND HELICASE DNA POLYMERASE LEADING STRAND The endoplasmic reticulum (ER) is the first stop for proteins
Page 8: with...every time a cell divides. RNA PRIMASE DNA POLYMERASE DNA LIGASE LAGGING STRAND HELICASE DNA POLYMERASE LEADING STRAND The endoplasmic reticulum (ER) is the first stop for proteins
Page 9: with...every time a cell divides. RNA PRIMASE DNA POLYMERASE DNA LIGASE LAGGING STRAND HELICASE DNA POLYMERASE LEADING STRAND The endoplasmic reticulum (ER) is the first stop for proteins
Page 10: with...every time a cell divides. RNA PRIMASE DNA POLYMERASE DNA LIGASE LAGGING STRAND HELICASE DNA POLYMERASE LEADING STRAND The endoplasmic reticulum (ER) is the first stop for proteins
Page 11: with...every time a cell divides. RNA PRIMASE DNA POLYMERASE DNA LIGASE LAGGING STRAND HELICASE DNA POLYMERASE LEADING STRAND The endoplasmic reticulum (ER) is the first stop for proteins
Page 12: with...every time a cell divides. RNA PRIMASE DNA POLYMERASE DNA LIGASE LAGGING STRAND HELICASE DNA POLYMERASE LEADING STRAND The endoplasmic reticulum (ER) is the first stop for proteins
Page 13: with...every time a cell divides. RNA PRIMASE DNA POLYMERASE DNA LIGASE LAGGING STRAND HELICASE DNA POLYMERASE LEADING STRAND The endoplasmic reticulum (ER) is the first stop for proteins
Page 14: with...every time a cell divides. RNA PRIMASE DNA POLYMERASE DNA LIGASE LAGGING STRAND HELICASE DNA POLYMERASE LEADING STRAND The endoplasmic reticulum (ER) is the first stop for proteins
Page 15: with...every time a cell divides. RNA PRIMASE DNA POLYMERASE DNA LIGASE LAGGING STRAND HELICASE DNA POLYMERASE LEADING STRAND The endoplasmic reticulum (ER) is the first stop for proteins
Page 16: with...every time a cell divides. RNA PRIMASE DNA POLYMERASE DNA LIGASE LAGGING STRAND HELICASE DNA POLYMERASE LEADING STRAND The endoplasmic reticulum (ER) is the first stop for proteins
Page 17: with...every time a cell divides. RNA PRIMASE DNA POLYMERASE DNA LIGASE LAGGING STRAND HELICASE DNA POLYMERASE LEADING STRAND The endoplasmic reticulum (ER) is the first stop for proteins
Page 18: with...every time a cell divides. RNA PRIMASE DNA POLYMERASE DNA LIGASE LAGGING STRAND HELICASE DNA POLYMERASE LEADING STRAND The endoplasmic reticulum (ER) is the first stop for proteins
Page 19: with...every time a cell divides. RNA PRIMASE DNA POLYMERASE DNA LIGASE LAGGING STRAND HELICASE DNA POLYMERASE LEADING STRAND The endoplasmic reticulum (ER) is the first stop for proteins
Page 20: with...every time a cell divides. RNA PRIMASE DNA POLYMERASE DNA LIGASE LAGGING STRAND HELICASE DNA POLYMERASE LEADING STRAND The endoplasmic reticulum (ER) is the first stop for proteins
Page 21: with...every time a cell divides. RNA PRIMASE DNA POLYMERASE DNA LIGASE LAGGING STRAND HELICASE DNA POLYMERASE LEADING STRAND The endoplasmic reticulum (ER) is the first stop for proteins
Page 22: with...every time a cell divides. RNA PRIMASE DNA POLYMERASE DNA LIGASE LAGGING STRAND HELICASE DNA POLYMERASE LEADING STRAND The endoplasmic reticulum (ER) is the first stop for proteins
Page 23: with...every time a cell divides. RNA PRIMASE DNA POLYMERASE DNA LIGASE LAGGING STRAND HELICASE DNA POLYMERASE LEADING STRAND The endoplasmic reticulum (ER) is the first stop for proteins
Page 24: with...every time a cell divides. RNA PRIMASE DNA POLYMERASE DNA LIGASE LAGGING STRAND HELICASE DNA POLYMERASE LEADING STRAND The endoplasmic reticulum (ER) is the first stop for proteins
Page 25: with...every time a cell divides. RNA PRIMASE DNA POLYMERASE DNA LIGASE LAGGING STRAND HELICASE DNA POLYMERASE LEADING STRAND The endoplasmic reticulum (ER) is the first stop for proteins
Page 26: with...every time a cell divides. RNA PRIMASE DNA POLYMERASE DNA LIGASE LAGGING STRAND HELICASE DNA POLYMERASE LEADING STRAND The endoplasmic reticulum (ER) is the first stop for proteins
Page 27: with...every time a cell divides. RNA PRIMASE DNA POLYMERASE DNA LIGASE LAGGING STRAND HELICASE DNA POLYMERASE LEADING STRAND The endoplasmic reticulum (ER) is the first stop for proteins
Page 28: with...every time a cell divides. RNA PRIMASE DNA POLYMERASE DNA LIGASE LAGGING STRAND HELICASE DNA POLYMERASE LEADING STRAND The endoplasmic reticulum (ER) is the first stop for proteins

www.cell.com

Page 29: with...every time a cell divides. RNA PRIMASE DNA POLYMERASE DNA LIGASE LAGGING STRAND HELICASE DNA POLYMERASE LEADING STRAND The endoplasmic reticulum (ER) is the first stop for proteins

Polymerase Chain Reaction By: Sarah D ^2. PCR stands for ‘polymerase chain reaction’. PCR is the amplification of DNA sequence by repeated cycles of strand

DNA Replication and Repair - Bio Resource Site · 2016-03-21 · STEP 3 Elongation of a new DNA strand lengthening in the 5’ 3’ direction DNA polymerase III can only add nucleotides

An Introduction to Next-Generation Sequencing for Oncologists · DNA polymerase catalyzes the incorporation of fluorescently labeled nucleotides into a DNA template strand during

Platinum Taq DNA Polymerase High Fidelity€¦ · Platinum® Taq DNA Polymerase High Fidelity contains recombinant Taq DNA polymerase, Pyrococcus species GB-D polymerase, and Platinum®

Dna polymerase

1. Transcription - Los Angeles Mission College Gene... · RNA polymerase Unzipping of DNA, movement of RNA polymerase Template DNA strand Terminator 3 DNA 5 3 5 1 2 Initiation of

Chapter 22 Lecture Outline - Napa Valley College...each strand by DNA polymerase. • Each new double-stranded helix is made of one new strand and one old strand (semiconservative

HANDOUT Introducing DNA barcoding · 2018. 5. 10. · Because DNA polymerase can only build a new strand of DNA onto an existing strand, researchers can specify the exact section

Notes #3 - Replication of DNA - WordPress.com · 4/11/13 2 2. Base Pairing • The enzyme, DNA polymerase III catalyzes the addition of appropriate nucleotides to the new DNA strand

Student Instructionsteach.genetics.utah.edu/content/dna/mutation-instructions.pdfAug 05, 2019  · DNA Polymerase slides along the DNA strand, adding comple-mentary building blocks

Biology: DNA and the Genome SCQF: level 6 (6 SCQF credit ...2 Replication of DNA (a) Replication of DNA by DNA polymerase and primers . short strand of nucleotides . DNA polymerase

DNA replic 2 - Unicamdocenti.unicam.it/tmp/112.pdf · Rolling circle Circular duplex DNA (RF) Initiation occurs on one strand. ... Model for DNA replication. The combined DNA polymerase

Testing “technologies”...Bst DNA polymerase, 5´ → 3´ polymerase and strand-displacement activity Amplifies by “unzipping” DNA. Complementary sequences on primers form a

Helicase-DNA polymerase interaction is critical to ... · Helicase-DNA polymerase interaction is critical to initiate leading-strand DNA synthesis Huidong Zhang1, Seung-Joo Lee1,

The DNA -> RNA -> Protein Pathway year/Micro/powerpoint/Positive Strand... · The DNA -> RNA -> Protein Pathway RNA Polymerase = enzyme that makes mRNA from the DNA gene template

Human mitochondrial RNA polymerase primes lagging-strand DNA

DNA polymerase η contributes to genome-wide lagging strand ... · DNA polymerase (pol ) is best known for its ability to bypass UV-induced thymine–thymine (T–T) dimers and other

Human mitochondrial RNA polymerase primes … › content › pnas › 105 › 32 › 11122.full.pdfHuman mitochondrial RNA polymerase primes lagging-strand DNA synthesis in vitro

Taq DNA Polymerase and PCR Kits - Gene Link · Taq DNA Polymerase is a thermostable DNA polymerase that possesses a 5´> 3´ polymerase activity and a double-strand ... annealing,

Fig. 20-12a DNA (template strand) TECHNIQUE DNA polymerase Primer DeoxyribonucleotidesDideoxyribonucleotides (fluorescently tagged) dATP dCTP dTTP dGTP

DNA and RNA Chapter 12-1mbenzing-biology.weebly.com/.../chap_12_dnaand_rna.pdfSection 12-2 Growth Growth Replication fork DNA polymerase New strand Original strand DNA polymerase Nitrogenous

Enzymes used in DNA Replication - WordPress.com...DNA polymerase: DNA polymerase is the chief enzyme of DNA replication. DNA polymerase activity was discovered by in Arthur Kornberg

WordPress.com€¦  · Web viewDNA polymerase catalyses the synthesis of new daughter strand on the template strand continuously 1 in the 5’ to 3’ direction 1 free DNA nucleotides

DNA RNA Protein Reverse transcriptase RNA-dependent RNA polymerase DNA polymerase RNA polymerase Ribosome Enzymes in the central dogma Cellular enzymes

From Gene to Protein A.P. Biology. Regulatory sites Promoter (RNA polymerase binding site) Start transcription DNA strand Stop transcription Typical Gene

NEB EXPRESSIONS/media/nebus/files/... · mal techniques rely on the strand displacement activity of a DNA polymerase for strand separa-tion of dsDNA . Typically, the large fragment

OF BIOLOGICAL Vol. 263, July 15, pp. 9818 … › content › 263 › 20 › 9818.full.pdfleading and lagging strand DNA synthesis, the unwinding of the helix to enable DNA polymerase

Polymerase Chain Reaction-Single Strand …...DETECTION OF MUTANT ADENINE PHOSPHORIBOSYL-TRANSFERASE GENES BY POLYMERASE CHAIN REACTION-SINGLE STRAND CONFORMATION POLYMORPHISM ANALYSIS

Activities of RNA Polymerase sequence specific DNA binding -promoters melts DNA to reveal the template strand selects ribonucleotide (not deoxynucleotides)

Microbial Genetics - Duncan Rossduncanross.net/MIC2010/_ch_08_lecture_presentation.pdf · DNA polymerase. DNA polymerase digests RNA primer DNA . polymerase . DNA polymerase Okazaki

Polymerase Chain Reaction (DNA Polymerase – duplicates DNA when cells divide) DNA copying machine – creates the compliment strand (ATCG-TAGC)

DNA polymerases DNA polymerase III –main DNA builder DNA polymerase I –editing, repair & primer removal

Molecular Biology (3) · The mechanism of replication DNA polymerase is responsible The DNA primase is part for synthesis of leading strand. of the DNA polymerase α. Polymerase αbegins

a. DNA ligase b. DNA polymerase c. RNA polymerase d. Restriction enzyme

PowerPoint Presentationpoteetbiology.weebly.com/uploads/2/6/3/9/26390595/1_cell_cyle_20… · DNA Polymerase primer strand Single strand Mitosis The Cell Cycle . Mitosis Fertilized