Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0348321 (Haemophilus)
15,372 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The site-specific restriction endonucleases isolated from Hemophilus influenzae strains Rc (HincII) and Rd (HindII + III), and Hemophilus parainfluenzae (HpaI) were used to digest bacteriophage lambda DNA into 34, 40, and 15 specific fragments, respectively. The sites cleaved by each of these enzymes were localized on the lambda physical map and the fragments resulting from these cleavages were electrophoretically identified on gels by (1) analysis of the digestion profiles of deletion and transducing derivatives of lambda; and (2) digesting individual fragments produced by one restriction endonuclease with another restriction endonuclease. This paper presents the HindII, HindIII, and HpaI restriction fragment maps for the entire lambda genome, and the data used to derive these maps for the region of the lambda genome between the attachment site (at 57.3% lambda) and the right vegetative end (100% lambda). The data for mapping the left arm of lambda may be found in the accompanying paper (Robinson and Landy, 1977).
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PMID:HindII, HindIII, and HpaI restriction fragment maps of bacteriophage lambda DNA. 59 4

The sites on the left arm of bacteriophage lambda DNA cleaved by the restriction endonucleases isolated from Hemophilus influenzae strain Rc (HincII) and Rd (HindII + III), and Hemophilus parainfluenzae (HpaI) were localized on the lambda physical map, and the fragments resulting from these cleavages were identified by gel electrophoresis. The restriction sites within the b2 region of lambda were mapped by analysis of the digestion profiles of deletion and substitution derivatives of lambda, as well as by digesting individual fragments produced by one restriction endonuclease with another restriction endonuclease. The restriction sites of the lambda genome between the left vegetative end and the b2 region were mapped entirely by succesive digestion experiments. The restriction fragment map for the right arm of lambda may be found in the accompanying paper (Robinson and Landy, 1977).
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PMID:HindII, HindIII, and HpaI restriction fragment maps of the left arm of bacteriophage lambda DNA. 59 5

From comparison of the sequences in and around the cleavage sites of restriction endonuclease HgaI isolated from Haemophilus gallinarum, the recognition sequence and cleavage site of this enzyme was deduced as below: (formula: see text) This enzyme recognizes a specific but asymmetric penta-nucleotide sequence, GCGTC, and introduces staggered cleavages at appointed positions away from the recognition sequence, generating protruding 5'-ends of five nucleotides. The sequences surrounding the cleavage sites bear no obvious relation to one another.
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PMID:Recognition sequence of a restriction endonuclease from Haemophilus gallinarum. 63 61

The restriction endonuclease from Haemophilus parainfluenzae, endoR.HpaI cleaves lambdacI857s7 DNA into 14 fragments. The sizes of these fragments were determined and a physical map was constructed. The ordering of the fragments was carried out using different deletion and substitution mutants of lambda phage, double cleavages with another restriction enzyme, endoR.BamHI, and partial protection of individual HpaI recognition sites by the antibiotics distamycin A and actinomycin D. HpaI produces fragments from the left arm of the lambda DNA genome, which may help in investigating the structure and function of this part of the phage.
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PMID:Physical mapping of bacteriophage lambda DNA with restriction endonuclease HpaI. 73 55

Replicative form DNA of bacteriophage M13 was cleaved into specific fragments by an endonuclease isolated from Hemophilus aegyptius (endoR.HaeII) and an endonuclease from Arthrobacter luteus (endoR.AluI). The fragments were ordered as to construct a circular map of the phage M13 genome by: (a) using each fragment as a primer for the synthesis in vitro of its respective neighbour and (b) digesting the isolated fragments with the Hemophilus aegyptius enzyme endoR.HaeII or the Hemophilus aphirophilus enzyme endoR.HapII and subsequent analysis of the overlapping sets of fragments. The resulting physical map was correlated with the M13 genetic map by marker rescue experiments with amber mutant phage DNAs and purified wild-type fragments. From the results of these analyses it has been concluded that gene II and gene V are contiguous on the genetic map. Evidence is provided that there is an internal start of RNA synthesis within the C-terminal region of gene II which then ultimately leads to the synthesis of X protein. Furthermore, we conclude that there is an intergenic space of considerable length (450-500 base pairs) which is located between gene II and gene IV on the M13 genome. The function of this intergenic region as the origin site for phage DNA replication is discussed.
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PMID:Restriction-enzyme-cleavage maps of bacteriophage M13. Existence of an intergenic region on the M13 genome. 78 38

When DNA of Drosophila melanogaster is digested to completion with Hemophilus aegyptius restriction endonuclease, the majority of the products are DNA segments whose lengths fits a random distribution with an average of 350 base pairs. However, some 10% of the DNA is recovered as various segments of discrete lengths, ranging from 30,000 to 365 base pairs. These segments arise from the regular spacing of the enzyme restriction sites in limited portions of the Drosophila genome. Three segments have been shown to originate from mitochondrial DNA, while all the others can be assigned to one or more isopycnic density classes of nuclear DNA. Five of the discrete fragments display modular lengths, each being an integral multiple of a 365 base pairs subunit. The relative frequencies of these multiple segments suggest that they are derived from DNA originally containing restriction sites every 365 base pairs, and that approximately 25% of these sites have been randomly inactivated.
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PMID:Regular arrangement of restriction sites in Drosophila DNA. 80 73

Restriction endonuclease R from Bacillus subtilis strain R cleaves nonmodified SPP 1 DNA in approximately 80, and lambda DNA in about 200 different sites. DNA digests with this endonuclease and with endonuclease Hae III from Haemophilus aegyptius show identical fragmentation patterns on gel electrophoresis, indicating that the two enzymes recognise the same nucleotide sequence. The polynucleotide kinase reaction was used in conjunction with two-dimensional ionophoretic nucleotide mapping methods to identify the 5'-nucleotide sequences at the sites of cleavage by the B. subtilis restriction endonuclease. The results show that the recognition sequence is (see article) where arrows indicate the points of strand scission. Each of the four possible nucleotides can occur in the positions flanking the recognition site.
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PMID:Restriction and modification in B. subtilis. Nucleotide sequence recognised by restriction endonuclease R. Bsu R from strain R. 81 3

The nucleotide sequence of a double stranded DNA fragment from the gene AB region of bacteriophage S13 DNA has been determined. The fragment was isolated as two adjacent shorter fragments by cleavage of S13 replicative form (RF) DNA with restriction endonuclease III from Hemophilus aegyptius. The strands of the fragments were separated electrophoretically and hydrolyzed with T4 endonuclease IV to yield short oligonucleotides which were then sequenced by partial exonuclease digestion. The complete nucleotide sequence of the restriction fragments was obtained by ordering the inter- and intrastrand overlapping oligonucleotide sequences. The adjacent fragments were 190 nucleotides in length. The sequences included a HindII site, an AluI site and two sequences which may be possible transcription initiation sequences, one with an adjacent sequence homologous to the canonical promoter site sequence T-A-T-Pu-A-T-Pu. Examination of the three possible reading frames for translation of the sequence revealed only one possible complete translation product. The postulated partial sequence of gene A protein has a highly positively charged arginine-rich area which may have importance in DNA binding.
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PMID:The nucleotide sequence of two restriction fragments located in the gene AB region of bacteriophage S13. 90 72

Lampbrush chromosomes from oocytes of Notophthalmus viridescens were dispersed in media containing restriction endonucleases isolated from Haemophilus and E. coli. These endonucleases cleave duplex DNAs at specific palindromic sequences of nucleotides, and several sensitive sites occur per micron of DNA. The overwhelming majority of the lateral loops of lampbrush chromosomes are extensively fragmented by these endonucleases, but an occasional pair of loops is refractory. A notable example of loops showing this refractory property are the giant loops on chromosome II in the presence of Hae. These loops, whose DNA-containing axes are several hundred micra long, are sensitive to other nucleases such as EcoB, endonuclease I and pancreatic DNase I; their refractory behavior towards Hae therefore indicates that the sequence sensitive to this particular endonuclease is systematically absent. This anomalous property can be comprehended if it be assumed that the axial DNA of the giant loops consists of tandem repeats of a sequence which happens not to include the sensitive site.
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PMID:The actions of restriction endonucleases on lampbrush chromosomes. 98 47

Single-stranded viral DNA of bacteriophage f1 is cleaved into specific fragments by endo R-HaeIII, a restriction endonuclease isolated from Hemophilus aegyptius. The sites of the single strand cleavage correspond to those of the double strand cleavage. A single-stranded DNA fragment containing only one HaeIII site is also cleaved by this enzyme. This observation suggests that the reaction of single-stranded DNA cleavage does not require the formation of a symmetrical double-stranded structure that would result from the intramolecular base-pairing between two different HaeIII sites. Other restriction endonucleases may also cleave single-stranded DNA.
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PMID:Site-specific cleavage of single-stranded DNA by a Hemophilus restriction endonuclease. 105 73


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