The nucleic acid data:
IRESite Id: 360 Version: 1
Originaly submitted by: Tomáš Mašek
Reviewed by: Martin Mokrejš Last change: 2008-06-06 12:35:42
IRESite record type:
  plasmid_with_promoter_and_putative_IRES_translationally_characterized
The shape of the nucleic acid molecule translated:
  linear
The quality of the mRNA/+RNA sequence:
  end-to-end_full-length_mRNA
The mRNA/+RNA description: 
Bicistronic RNA encoding B2 and NS´proteins as the first and the second cistron, respectively, with fully
active CSFV IRES inserted between them. Putative T7 promoter-derived transcript transcribed either in vitro or
in vivo in BHK-21 cells infected by recombinant vaccinia virus vTF7-3 containing pXLCSFV1-423.
The mRNA/+RNA sequence represented in the +DNA notation:


Credibility of mRNA sequence:
  end-to-end_sequence_reverse_engineered_and_should_match_experiment
The name of the plasmid:
pXLCSFV1-423.NS
The name of the promoter used to express this mRNA:
  T7
Description of the plasmid (facultative for promoter-less plasmid records):
pXLCSFV1-423.NS is a derivative of pXL10S. CSFV IRES corresponding to 1-423 bp of viral genomic RNA has been inserted between the two cistrons using SalI and SnaBI enzymes. The pXLJ0S contains T7 and SP6 promoter sites and is typically used in in vitro transcription/translation assays. Bicistronic RNA, which contains B2 and NS cistrons (GI:214094, GI:21693177), is transcribed by T7 polymerase after vector linearization by EcoRI.
The in vivo produced transcripts are heterogeneous (due to any of promoter?/splicing?/cleavage?/breakage?):
  not tested
The in vivo produced heterogeneous transcripts occur due to alternative splicing:
  not tested
A promoter reported in cDNA corresponding to IRES sequence:
  not tested
The abbreviated name of the donor gene or virus from which this IRES was excised and inserted into the plasmid:
CSFV
The origin of IRES in the plasmid:
  viral
The donor organism of the IRES segment:
Classical swine fever virus Alfort/Tuebingen
The DNA sequence of the plasmid in (+) orientation annotated by its secondary structure:


GenBank formatted file with annotated plasmid sequence hyperlinked from vector image map:
pXLCSFV1-423.NS.jpg
The total number of notable open-reading frames (ORFs):
  2
Notable Open-Reading Frames (ORFs; protein coding regions) in the mRNA/+RNA sequence:
ORF
ORF position:   1
Version: 0
Originaly submitted by: Tomáš Mašek Reviewed by: Martin Mokrejš
The abbreviated name of this ORF/gene:
B2
The description of the protein encoded in this ORF:
Xenopus laevis B2 cyclin
The translational frameshift (ribosome slippage) involved:
  0
The ribosome read-through involved:
  no
The alternative forms of this protein occur by the alternative initiation of translation:
  no
The ORF absolute position (the base range includes START and STOP codons or their equivalents):
  39-1217
ORF
ORF position:   2
Version: 2 Last change: 2008-06-11 14:30:40
Originaly submitted by: Tomáš Mašek Reviewed by: Martin Mokrejš
The abbreviated name of this ORF/gene:
NS
The description of the protein encoded in this ORF:
Truncated form of influenza NS1 protein which is N-terminally fused with 3 amino acids
The translational frameshift (ribosome slippage) involved:
  0
The ribosome read-through involved:
  no
The alternative forms of this protein occur by the alternative initiation of translation:
  no
The ORF absolute position (the base range includes START and STOP codons or their equivalents):
  1761-2495
Remarks:
IRESite notes about verification of plasmid sequence:
The sequence of pXLCSFV1-423.NS (pXLJ0S respectively) was derived from the pXLJCon sequence which has been
experimentally determined by IRESite curators (please see the IRESite entry 329). The sequence of pXLJ0S
differs from pXLJCon in a creation of SnaBI restriction site at position 4202 of plasmid sequence.  A mutation
in vector backbone at position 2808 is indicated in pXLCSFV1-423.NS .gb file provided by IRESite. This
mutation has been detected by sequencing of pXLJCon, thus it is not clear if it is present in pXLJ0S series as
well.
Citations:
Fletcher S. P., Ali I. K., Kaminski A., Digard P., Jackson R. J. (2002) The influence of viral coding sequences on pestivirus IRES activity reveals further parallels with translation initiation in prokaryotes. RNA. 8(12):1558-1571
IRESs:
IRES:
Version: 2 Last change: 2008-06-11 14:30:40
Originaly submitted by: Tomáš Mašek Reviewed by: Martin Mokrejš
The IRES name:
  CSFV_1-423
The functional status of IRES:
  functional
The IRES absolute position (the range includes START and STOP codons or their equivalents):
  1389-1811
How IRES boundaries were determined:
experimentally_determined
5'-end of IRES relative to last base of the STOP codon of the upstream ORF:
  172
3'-end of IRES relative to last base of the STOP codon of the upstream ORF:
  594
5'-end of IRES relative to first base of the START codon of the downstream ORF:
  -372
3'-end of IRES relative to first base of the START codon of the downstream ORF:
  50
The sequence of IRES region aligned to its secondary structure (if available):


Remarks:
IRES region displaying full translational activity
Citations:
Fletcher S. P., Ali I. K., Kaminski A., Digard P., Jackson R. J. (2002) The influence of viral coding sequences on pestivirus IRES activity reveals further parallels with translation initiation in prokaryotes. RNA. 8(12):1558-1571
The translation experiments:
Translation results:
IRESite Translation Id: 431
Version: 3 Last change: 2008-07-04 13:25:37
Originaly submitted by: Tomáš Mašek Reviewed by: Martin Mokrejš
The translation method used to study IRES function:
in vitro
The in vitro translation system:
rabbit reticulocytes lysate
The organism used for translation:
The temperature (in degrees of Celsia):
37
The relative translation efficiency in % of this IRES:
  84.000
Name of IRES used as the positive control:
  CSFV_1-442
Name of the plasmid used as the positive control.
pXLCSFV1-442.NS
Name of the plasmid used as the negative control.
pXL0S
IRESite Id of the plasmid used as positive control.
  359
IRESite Id of the plasmid used as negative control.
  356
The relative translation efficiency in % of the positive control:
  100.000
The relative translation efficiency in % of the negative control:
  0
The size (length) of intercistronic region in the positive control:
543
The size (length) of intercistronic region in the negative control:
193
The effect of 5'-cap analogs on translation:
not tested
Rapamycin affects translation:
not tested
Type of RNA subject to translation:
  exogenous_RNA_without_cap_without_polyA_tail
Remarks:
Data from Fig. 2 and 3.
Citations:
Fletcher S. P., Ali I. K., Kaminski A., Digard P., Jackson R. J. (2002) The influence of viral coding sequences on pestivirus IRES activity reveals further parallels with translation initiation in prokaryotes. RNA. 8(12):1558-1571
Translation results:
IRESite Translation Id: 432
Version: 2 Last change: 2008-07-04 13:25:37
Originaly submitted by: Tomáš Mašek Reviewed by: Martin Mokrejš
The translation method used to study IRES function:
in vivo
The organism used for translation:
Homo sapiens BHK-21 (ATCC CCL-10)
The temperature (in degrees of Celsia):
37
The relative translation efficiency in % of this IRES:
  88.000
Name of IRES used as the positive control:
  CSFV_1-442
Name of the plasmid used as the positive control.
pXLCSFV1-442.NS
Name of the plasmid used as the negative control.
pXL0S
IRESite Id of the plasmid used as positive control.
  359
IRESite Id of the plasmid used as negative control.
  356
The relative translation efficiency in % of the positive control:
  100.000
The relative translation efficiency in % of the negative control:
  0
The size (length) of intercistronic region in the positive control:
543
The size (length) of intercistronic region in the negative control:
193
The effect of 5'-cap analogs on translation:
not tested
Rapamycin affects translation:
not tested
Type of RNA subject to translation:
  endogenous_cytoplasmic_uncapped_T7_transcript_without_polyA_tail
Remarks:
Data from Fig. 4.
Citations:
Fletcher S. P., Ali I. K., Kaminski A., Digard P., Jackson R. J. (2002) The influence of viral coding sequences on pestivirus IRES activity reveals further parallels with translation initiation in prokaryotes. RNA. 8(12):1558-1571
Last change to the database: 2019-03-18 09:32:49 GMT+1