DNA-replication fork - definição. O que é DNA-replication fork. Significado, conceito
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O que (quem) é DNA-replication fork - definição

CELLULAR METABOLIC PROCESS IN WHICH A CELL DUPLICATES ONE OR MORE MOLECULES OF DNA
Lagging strand; Leading strand; Replication fork; Dna replication; Amplification of DNA; Leading and lagging strand; Termination of DNA replication; DNA Replication; Semi-conservative DNA replication; Cellular replication; Replication bubble; Replicating molecule; DNA replication protein; Template replication; Leading chain; Replication eye; Replication Fork; Lagging chain; Dna Replication; Discontinuous DNA replication; DNA amplification technology; Dioxyribonucleic acid replication; Replication origin regions; Initiation of DNA replication; Gene replication; DNA partition
  • trimer]] of the protein [[PCNA]].
  • Overview of the steps in DNA replication
  • The cell cycle of eukaryotic cells.
  • element]] and the detailed structures of two [[base pair]]s are shown in the bottom right.
  •  isbn = 978-1-4051-0379-4 }}</ref> If a mismatch is accidentally incorporated, the polymerase is inhibited from further extension. Proofreading removes the mismatched nucleotide and extension continues.
  • DNA replication: The [[double helix]] is un'zipped' and unwound, then each separated strand (turquoise) acts as a template for replicating a new partner strand (green). [[Nucleotide]]s (bases) are matched to synthesize the new partner strands into two new double helices.
  • E. coli Replisome. Notably, the DNA on lagging strand forms a loop. The exact structure of replisome is not well understood.
  • Epigenetic consequences of nucleosome reassembly defects at stalled replication forks
  • Formation of pre-replication complex.
  • Many enzymes are involved in the DNA replication fork.
  • Role of initiators for initiation of DNA replication.
  • Dam methylates adenine of GATC sites after replication.
  • Scheme of the replication fork.<br />a: template, b: leading strand, c: lagging strand, d: replication fork, e: primer, f: [[Okazaki fragments]]
  • Replication fork restarts by homologous recombination following replication stress
  • Steps in DNA synthesis

DNA replication         
In molecular biology, DNA replication is the biological process of producing two identical replicas of DNA from one original DNA molecule. why we have to study DNA replication?
DNA replication stress         
  • INO80 stabilizes replication forks and counteracts mislocalization of H2A.Z
  • Illustration of various approaches to target replication stress for cancer treatment
  • Rationale for enhancing replication stress to kill cancer cells
Replication stress
DNA replication stress refers to the state of a cell whose genome is exposed to various stresses. The events that contribute to replication stress occur during DNA replication, and can result in a stalled replication fork.
Origin of replication         
  • 50px
  • Genome of ''[[human herpesvirus-6]]'', a member of the [[Herpesviridae]] family. The origin of replication is labeled as "OOR."
SEQUENCE IN A GENOME AT WHICH REPLICATION IS INITIATED
OriC; Replication origin; Replication origin site; Ori (genetics); Ori (Genetics); Origins of replication; DNA replication origin; OriL; OriB; OriH; OriA; OriV; Origins of dna replication; Origins of DNA Replication
The origin of replication (also called the replication origin) is a particular sequence in a genome at which replication is initiated. Propagation of the genetic material between generations requires timely and accurate duplication of DNA by semiconservative replication prior to cell division to ensure each daughter cell receives the full complement of chromosomes.

Wikipédia

DNA replication

In molecular biology, DNA replication is the biological process of producing two identical replicas of DNA from one original DNA molecule. DNA replication occurs in all living organisms acting as the most essential part of biological inheritance. This is essential for cell division during growth and repair of damaged tissues, while it also ensures that each of the new cells receives its own copy of the DNA. The cell possesses the distinctive property of division, which makes replication of DNA essential.

DNA is made up of a double helix of two complementary strands. The double helix describes the appearance of a double-stranded DNA which is thus composed of two linear strands that run opposite to each other and twist together to form. During replication, these strands are separated. Each strand of the original DNA molecule then serves as a template for the production of its counterpart, a process referred to as semiconservative replication. As a result of semi-conservative replication, the new helix will be composed of an original DNA strand as well as a newly synthesized strand. Cellular proofreading and error-checking mechanisms ensure near perfect fidelity for DNA replication.

In a cell, DNA replication begins at specific locations, or origins of replication, in the genome which contains the genetic material of an organism. Unwinding of DNA at the origin and synthesis of new strands, accommodated by an enzyme known as helicase, results in replication forks growing bi-directionally from the origin. A number of proteins are associated with the replication fork to help in the initiation and continuation of DNA synthesis. Most prominently, DNA polymerase synthesizes the new strands by adding nucleotides that complement each (template) strand. DNA replication occurs during the S-stage of interphase.

DNA replication (DNA amplification) can also be performed in vitro (artificially, outside a cell). DNA polymerases isolated from cells and artificial DNA primers can be used to start DNA synthesis at known sequences in a template DNA molecule. Polymerase chain reaction (PCR), ligase chain reaction (LCR), and transcription-mediated amplification (TMA) are examples. In March 2021, researchers reported evidence suggesting that a preliminary form of transfer RNA, a necessary component of translation, the biological synthesis of new proteins in accordance with the genetic code, could have been a replicator molecule itself in the very early development of life, or abiogenesis.