the cutting out of introns and joining of exons to form a complete RNA strand with no introns.

The permanent joining of bare fiber ends to another fiber.

The removal of introns in the process of RNA maturation.

The removal of introns and connecting of exons in eukaryotic pre-mRNAs.

a junction where two things (as paper or film or magnetic tape) have been joined together; "the break was due to an imperfect splice"

a critical step in the expression of most genes, which can result in the expression of several mRNAs encoding proteins with different functions from a single gene

a crucial step for gene expression because the vast majority of human genes contain one or more intervening sequences (introns) that must be accurately removed to form the mature and functional messenger RNAs (mRNAs)

a key process in the transformation of genomic instructions into functional proteins and may play a critical role in regulating gene expression in a variety of eukaryotes

a key step in gene expression regulation and the functional control of proteins

an essential, precisely regulated post-transcriptional process t hat occurs prior to mRNA translation

an essential, precisely regulated process that occurs following gene transcription into pre-mRNA and prior to mRNA translation into protein

an essential process in all eukaryotes

an essential process that accounts for many aspects of regulated gene expression

an essential step in gene expression, and is often variable, giving rise to multiple alternatively spliced mRNA and protein isoforms from a single gene locus

an essential step in gene expression where intervening, or intron, sequences are removed precisely from primary transcripts to produce functional messenger RNA to be used in protein synthesis

an important and tightly regulated step between gene transcription (reading the gene's information) and production of protein according to the gene's information (protein translation)

an important mechanism for regulating gene expression in higher eukaryotes

a stepwise nuclear process involving intron recognition and the assembly of the spliceosome followed by intron excision

a two-step process by which introns are removed and exons joined together

a widely used mechanism for gene regulation and the generation of different protein isoforms, but relatively little is known about the factors and mechanisms that mediate this process

The removal of introns from the messenger RNA copy of a gene, so that just the gene exons are present in the final version.

The removal of introns from messenger RNA and the joining together of adjacent exons.

The process that removes introns and joins exons together contiguously in RNA

The joining together of two ends of yarn or cordage.

The removal of introns from a section of genetic code to leave only the useful exons. search for Splicing

Connecting two fragments of DNA or RNA end to end to create a new molecule.

See gene splicing.

The covalent linkage of DNA by DNA ligase; the process by which the spliceosome excises introns from RNA; the post-translation cleavage and ligation process that results in the excision of a protein intein and ligation of the ends created to form an extei

an intranuclear process of splicing out of introns and joining together exons in RNA.

The removal of introns and joining of exons to form a continuous coding sequence in RNA.

(épissage) the action of joining an existing element with a new element in order to compensate for the weakness of a damaged edge. The splicing of structural members for reinforcement is a typical example.

The joining together of two or more pieces of film so that the joined film segments will pass through a projector, film processor, or camera without interruption.

Making a loop or eye in the end of a rope by tucking the ends of the strands back into the main body of the rope. Formation of loops or eyes in a rope by means of mechanical attachments pressed onto the rope. Joining of two rope ends so as to form a long or short splice in two pieces of rope.

(synonym: splicing mutation) The process by which introns, non-coding regions, are excised out of the primary messenger RNA transcript and exons ( i.e. , coding regions) are joined together to generate mature messenger RNA

In eukaryots, coding sequences (exons) are divided by non-coding sequences (introns). During transcription, both coding and non-coding sequences are transcribed into primary RNA. In order to produce a functional mRNA for biosynthesis the non-coding sequences have to be removed. During a process called splicing, the introns are removed from the primary RNA and the ends of the exons are connected. The mature mRNA may than be released from the nucleus to the cytoplasm, where proteinsynthesis starts.

two exons, or coding regions on a messenger RNA, are joined together when the intron (non-coding segment) between them is removed. Return to text.

A stage in the processing of mRNA, in which intervening sequences (introns) are removed from a primary RNA transcript (pre-RNA) and the coding exons are joined together to form the mature mRNA molecule.

the removal of introns from the sequence of mRNA. When an mRNA molecule is synthesized from a DNA template, introns are transcribed (see transcription) along with exons. In the splicing process, this material is cut out and the exons are joined together to form a continuous coding sequence.

describes the removal of introns and joining of exons in RNA; thus introns are spliced out, while exons are spliced together.

The process of cutting, excising, and recombining an RNA or DNA. In RNA, splicing is used to remove introns from the coding sequence.

The permanent joining of fiber ends to identical or similar fibers, without the use of a connector.

The reaction that removes introns and joins together exons in RNA.

The removal of introns to generate mRNA.

In genetics, splicing is a modification of genetic information after transcription, in which introns are removed and exons are joined. Splicing prepares precursor messenger RNA in eukaryotes to produce mature messenger RNA. This mature messenger RNA is then prepared to undergo translation as part of protein synthesis to produce proteins.

Splicing involves using the strands of a rope to make an alteration, be it to join two lengths of rope together more cleanly than tying a knot or doubling a rope back onto itself to form an eye (a bight or loop) or an end that will not fray. To splice a rope the strands at the end of the rope in question are prised apart and then woven into the strands at another point, or into the strands of a different rope altogether. Splicing remains an essential seamanship skill as it results in a stronger and more aesthetic result than a knot.