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Query: EC:3.1.30.1 (
S1 nuclease
)
3,660
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The nucleotide sequence of the F plasmid transfer gene traH, which is involved in F-pilus assembly in Escherichia coli K-12, has been determined. From the sequence data, it would appear that traH encodes a 38,897-dalton
precursor polypeptide
which is processed to give a periplasmic protein. Furthermore, a new gene, trbF, has been located immediately upstream of traH and shown to be expressed by means of a translational fusion to lacZ. Using galK fusion and
S1 nuclease
protection studies, a weak traJ-dependent promoter, P trbF, has been mapped upstream and adjacent to trbF. Transcription of trbF and traH from P trbF may well serve to complement transcription from the major tra operon promoter PY located some 16 kb upstream of these genes.
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PMID:Nucleotide sequence of the F plasmid transfer gene, traH: identification of a new gene and a promoter within the transfer operon. 265 8
Pseudomonas solanacearum is an important phytopathogen which excretes a variety of extracellular enzymes. Pulse-chase experiments showed that one of these enzymes, a beta-1,4-endoglucanase (EGL) encoded by the egl gene, is synthesized as a higher-molecular-weight
precursor polypeptide
(pEGL) which is subsequently excreted into the extracellular medium as a 43-kilodalton mature protein.
S1 nuclease
transcript mapping and DNA sequence analysis were used to identify the transcription start site and the possible translation start site of egl. Pulse-chase experiments and comparison of the putative NH2-terminal amino acid sequence of pEGL with the actual NH2-terminal amino acid sequence of mature excreted EGL suggested that pEGL has a 45-residue leader sequence preceding the N terminus of EGL which is proteolytically cleaved during export to the extracellular environment. The first 20 residues of the leader sequence resembled a typical lipoprotein signal peptide. The excretion of EGL by P. solanacearum apparently requires a membrane potential since it was blocked by carbonyl cyanide m-chlorophenyl hydrazone.
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PMID:Excretion of the egl gene product of Pseudomonas solanacearum. 273 21
Plastocyanin is a member of photosynthetic electron transport chains that transfers electrons from cytochrome f to the oxidized P700 chlorophyll a pigment of the photosystem I reaction center. We have isolated and characterized cDNA- and genomic clones from spinach (Spinacia oleracea) encoding the complete plastocyanin-
precursor polypeptide
. The amino acid sequence derived from the nucleotide sequence shows that the precursor consists of 168 amino acid residues including a transit sequence of 69 residues. The
precursor polypeptide
has a predicted Mr of 16,917, the mature protein of 10,413. The available data indicate that plastocyanin derives probably from a single-copy gene. The coding region contains no intron. The size of the mRNA as determined by
S1 nuclease
protection experiments is approximately 660 nucleotides, although analysis of different cDNA clones suggests that longer RNA species do exist, approaching the size of the mRNA (850 bases) estimated by Northern blot techniques.
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PMID:Plastocyanin is encoded by an uninterrupted nuclear gene in spinach. 283 87
The gene encoding the
precursor polypeptide
of the Marek's disease herpesvirus (MDHV) secretory glycoprotein gp57-65 (formerly identified as A antigen) has been sequenced. Previous results had localized the gene to a 4.6-kilobase (kb) segment of the BamHI B fragment in the unique long region of the MDHV genome.
S1 nuclease
protection experiments were used to more precisely locate the 5' initiation and approximate 3' termination points of the approximately 1.8-kb MDHV gp57-65 mRNA within this segment. These results indicated that the entire MDHV gp57-65 coding sequence is contained within a 2.35-kb PvuII-EcoRI fragment, with the direction of transcription from PvuII to EcoRI (5' to 3'). Nucleotide sequence analysis of this region revealed a single open reading frame of 1,515 base pairs. The MDHV gp57-65 coding sequence has an overall guanosine-plus-cytosine content of 41%. Translation of the single open reading frame would produce a polypeptide of 505 amino acids, with a calculated molecular weight of 56,805. The putative gp57-65
precursor polypeptide
contains features common to many glycoproteins. These include a hydrophobic amino-terminal region (amino acids 1 to 27) that may function as a signal peptide and nine potential N-linked glycosylation sites (Asn-X-Ser/Thr). These two features, predicted from nucleotide sequence data, are consistent with the published data showing that gp57-65 has a signal peptide and N-linked glycosylation (R. J. Isfort, R. A. Stringer, H.-J. Kung, and L. F. Velicer, J. Virol. 57:464-474, 1986). The predicted sequence indicates that overall the polypeptide is relatively hydrophobic, with a possible 18-residue carboxyl-terminal membrane anchor sequence. This sequence appears to be less prominent than those commonly found in integral membrane glycoproteins. The lack of a strong hydrophobic anchor sequence may help to explain the predominantly secretory nature of MDHV gp57-65.
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PMID:Structure and complete nucleotide sequence of the Marek's disease herpesvirus gp57-65 gene. 283 20
We have sequenced a genomic subclone (pLg AB19/H5c) of Lemna gibba nuclear DNA containing a complete chlorophyll a/b protein coding region and 5' and 3' flanking nucleotides. The coding region contains an intron of 84 nucleotides that has features characteristic of a transposable element. Evidence from
S1 nuclease
mapping experiments is consistent with correct transcription and splicing of the AB19 or another closely related intron-containing gene. The encoded
precursor polypeptide
of 264 amino acid residues has a predicted Mr of 28,327. Approximately 35 N-terminal residues are cleaved from this protein to form the mature apoprotein. We have used theoretical considerations of protein structure to propose an experimentally testable model of the structure of this protein in thylakoid membranes.
...
PMID:A chlorophyll a/b-protein encoded by a gene containing an intron with characteristics of a transposable element. 298 5
The structure of the normal human c-sis/platelet-derived growth factor 2 (SIS/PDGF2) transcript was determined by a combination of cDNA cloning,
nuclease S1
mapping, and primer extension. Nucleotide sequence analysis revealed that the 3373-nucleotide SIS/PDGF2 mRNA contained only a 723-base-pair (bp) coding sequence for the PDGF2
precursor polypeptide
. The coding sequence was flanked by long 5' (1022 bp) and 3' (1625 bp) untranslated regions. The 5' noncoding region, as well as upstream flanking genomic sequences, contained clusters of specific short repeat sequences. A consensus transcriptional promoter sequence, TATAAA, was identified 24 bp upstream of the mRNA start site and an enhancer-like "TG element" was detected about 180 bp downstream from the site of polyadenylylation. These findings identify putative regulatory elements of the SIS/PDGF2 gene.
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PMID:Structure and sequence of the human c-sis/platelet-derived growth factor 2 (SIS/PDGF2) transcriptional unit. 351 69
A genomic clone for a major chlorophyll a/b-binding polypeptide of the light-harvesting complex has been sequenced from wheat. This gene, whAB1.6, encodes a 70-nucleotide 5'-nontranslated spacer, a 34-amino-acid NH2-terminal extension, i.e., the transit peptide, and a mature coding protein of 232 amino acid residues. The exact molecular weight of the
precursor polypeptide
is 28,560. The transit peptide is basic and is rich in serines. No intervening sequences are found in this gene. The transcription start site of the whAB1.6 gene occurs at AAAC as determined by
S1 nuclease
analysis. Putative regulatory sequences occur upstream of the gene at -25 (TTTAAATA) and at -72 (CCAACCA). Northern blots show a single RNA species estimated to be 1,100 nucleotides. Heterogeneity of the RNA population is demonstrated in
S1 nuclease
analyses with a 5'-end-labeled fragment that extends 191 nucleotides into the mature protein coding sequence. At least seven different transcripts can be recognized. The highest levels of RNA transcribed from the whAB1.6 gene are found in the basal segments of the wheat leaf, whereas other chlorophyll a/b-binding transcripts in the cell show a different pattern of abundance. As a control, we show that roots do not contain chlorophyll a/b-binding RNA. The most abundant RNA species shows an interrupted homology with the whAB1.6 gene at the start of the mature protein coding sequence; another species shows homology beginning at the start of the transit peptide and does not include the nontranslated region. Chlorophyll a/b-binding polypeptides accumulate toward the tip of the leaf as shown by Western blot analysis of total thylakoid proteins.
...
PMID:Structure and developmental regulation of a wheat gene encoding the major chlorophyll a/b-binding polypeptide. 389 35
