Isolation and characterization of a highly repetitious inverted terminal repeat sequence from Oxytricha macronuclear DNA.

During the development of human adenovirus 35-derived replication-incompetent (rAd35) vaccine vectors for prevention of infectious diseases, we detected mutations in the terminal 8 nt of the inverted terminal repeats (ITRs) of rAd35. The switch from the plasmid-encoded sequence 5′-CATCATCA-3′ to the alternative sequence 5′-CTATCTAT-3′ in the ITRs was found to be a general in vitro propagation phenomenon, as shown for several vectors carrying different transgenes or being derived from different adenovirus serotypes. In each tested case, the plasmid-encoded ITR sequence changed to exactly the same alternative ITR sequence, 5′-CTATCTAT-3′. The outgrowth of this alternative ITR version should result from a growth advantage conferred by the alternative ITR sequence. Indeed, replication kinetics studies of rAd35 harbouring either the original or alternative ITR sequence confirmed an increase in replication speed for rAd35 vectors with the alternative ITR sequence. These findings can be applied to generate recombinant adenoviral vectors harbouring the alternative ITR sequence, which will facilitate the generation of genetically homogeneous seed virus batches. Moreover, vector production may be accelerated by taking advantage of the observed improved replication kinetics associated with the alternative ITR sequence.

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Isolation and Characterization of a 1.7-kb Transposable Element from a Mutator Line of Maize

Genetics ◽

10.1093/genetics/117.2.297 ◽

1987 ◽

Vol 117 (2) ◽

pp. 297-307

Author(s):

Loverine P Taylor ◽

Virginia Walbot

Keyword(s):

Direct Repeat ◽

Repeat Sequence ◽

Gene Probe ◽

Gene Transcript ◽

Chimeric Transcript ◽

Purple Pigment ◽

Isolation And Characterization ◽

Internal Sequence ◽

Normal Gene

ABSTRACT We have cloned and sequenced a 1.7-kb Mu element from a Mutator line of maize and compared its structure to Mu1, a 1.4-kb element. With the exception of a 385-bp block of DNA present in the 1.7-kb element, these transposable elements are structurally similar, sharing terminally inverted and internal direct repeated sequences. Derivation of 1.4-kb elements from the 1.7-kb class via deletion of internal sequence is suggested by the finding that a portion of the extra DNA in Mu1.7 is part of a truncated direct repeat sequence in the 1.4-kb element. An abundant poly(A)+ RNA homologous to a portion of this extra DNA is present in several tissues of both Mutator and non-Mutator lines. Analysis of transcripts from an unstable mutant bronze1 (bz) allele containing a Mu1.7 element inserted in an exon of the gene detects three species of poly(A)+ RNA that hybridize to a Bz1 (Bronze) gene probe: the largest contains the entire Mu1.7 element in the Bz1 gene transcript; another appears to be a spliced, chimeric transcript; the smallest is normal size Bz1 mRNA. The latter is most likely encoded by the normal-size alleles detected by Southern analysis of tissue expressing purple pigment, suggesting that normal gene function is restored by excision of the Mu1.7 element.

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Cotransfection with adenovirus DNA enhances transcription from linear DNA containing eucaryotic promoters.

Molecular and Cellular Biology ◽

10.1128/mcb.7.3.1063 ◽

1987 ◽

Vol 7 (3) ◽

pp. 1063-1069

Author(s):

M B Vasudevachari ◽

V Natarajan ◽

N P Salzman

Keyword(s):

Rna Synthesis ◽

Chloramphenicol Acetyltransferase ◽

Repeat Sequence ◽

Early Gene ◽

Inverted Terminal Repeat ◽

Adenovirus E1a ◽

293 Cells ◽

Inverted Terminal Repeat Sequence ◽

Inverted Terminal Repeats ◽

Terminal Repeats

Linear DNAs, containing a copy of the adenovirus serotype 2 (Ad2) inverted terminal repeat sequence at each end, replicate in 293 cells when cotransfected with Ad2 DNA (Hay et al., J. Mol. Biol. 175:493-510, 1984). We have linked either the Ad2 IVa2 promoter (IVa2) or major late promoter (MLP) to the chloramphenicol acetyltransferase gene and inserted this DNA into such a plasmid (pARKR) between its two inverted terminal repeats. These recombinant plasmids were linearized and then used to transfect 293 cells in the presence or absence of Ad2 helper DNA. Synthesis of IVa2 and MLP RNAs, and production of chloramphenicol acetyltransferase was increased dramatically when the Ad2 DNA was included. However, unlike the patterns of temporal regulation which are seen during a cycle of virus replication when these genes are contained within the virion, there was no obvious difference in the timing of RNA synthesis from plasmid IVa2 or MLP after cotransfection. When linearized plasmids containing IVa2 and MLP sequences but lacking inverted terminal repeats at their ends (replication deficient plasmids) were used for transfection, an increase in RNA synthesis from IVa2 or MLP was also observed and similarly required cotransfection with Ad2 DNA. When HeLa cells, which do not constitutively express the adenovirus E1a gene, were cotransfected with linearized plasmids and adenovirus DNA that lacks the E1a region (H5dl312), a stimulation of transcription was also observed, although it was less than the level observed with wild-type DNA. The results of the present study demonstrate that an early gene product(s) besides E1a functions in trans to regulate transcription.

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