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1.
Morphology of the Bacteriophages of Lactic Streptococci   总被引:13,自引:11,他引:2       下载免费PDF全文
Electron microscope studies have been made of a number of phages of lactic streptococci, seven of which were phages of Streptococcus lactis C10. Two of the phages are thought to be identical; five have been classified by the method of Tikhonenko as belonging to group IV (phages with noncontractile tails) with type III tail plates; one belongs to group V (phages with tails possessing a contractile sheath). Both prolate polyhedral heads and isometric polyhedral heads are represented among the group IV phages. The phage drc3 of S. diacetilactis DRC3 has been shown to have similar structure to the group IV phages of S. lactis C10 with prolate polyhedral heads. The phages ml1, hp, c11, and z8 of the S. cremoris strains ML1, HP, C11, and Z8, respectively, were shown to belong to the group IV phages with type III tail plates by the method of Tikhonenko. All had octahedral heads and tended to be larger than most of the other phages studied.  相似文献   

2.
The fine structure of phage HM 2 (group I) active on Clostridium saccharoperbutylacetonicum was studied by an electron microscopy with a negative-staining technique, and compared with those of more conventional types, phages HM 3 (group II) and HM 7 (group III), whose tails were clearly observed by a shadow-casting technique. This study revealed that phage HM 2 had an intricate tail which was not observed by a shadow-casting technique.

Phage HM 2 has an icosahedral head about 450 Å in diameter and a non-contractile tail about 300 Å long. The distal 130 Å of the tail axis has a width of 80 Å which is wider than the upper portion of the tail (50 to 60 Å). The distal enlargement is not seen in the hollow tail. Twelve fibrous-shaped appendages are attached symmetrically at the upper portion of tail axis and extend toward the distal base of the tail. Their length is a little shorter than 300 Å. They combine with divalent cations in the phage dilution medium, and also adsorb the host cell debris.

Phage HM 3 has an icosahedral head about 770 Å in diameter and a tail about 1000 Å long and 150 Å wide with contractile sheath. Phage HM 7 has an icosahedral head about 750 Å in diameter and a long non-contractile tail about 2000 Å long and about 120 Å wide with forked tip.

The structure of the tail of phage HM 2 is quite different from those of phages HM 3 and HM 7 hitherto described and those of the various phages of other bacteria.  相似文献   

3.
"Viili," a fermented milk product, has a firm but viscous consistency. It is produced with traditional mesophilic mixed-strain starters, which have various stabilities in dairy practice. Thirteen morphologically different types of phages were found in 90 viili samples studied by electron microscopy. Ten of the phage types had isometric heads with long, noncontractile tails, two had elongated heads with long, noncontractile tails, and one had a unique, very long elongated head with a short tail. Further morphological differences were found in the tail size and in the presence or absence of a collar, a baseplate, and a tail fiber. To find hosts for the industrially significant phages, we examined the sensitivities of 500 bacterial isolates from starters of the viili. Seven of the phages attacked Streptococcus cremoris strains, three attacked S. lactis subsp. diacetylactis strains, and four attacked Leuconostoc cremoris strains. Some phages differed only in their host specificity. Hosts were not found for 4 of the 13 morphological types of phages.  相似文献   

4.
Twenty-four bacteriophages of Lactococcus lactis subsp. lactis and L. lactis subsp. cremoris were classified. Two groups of bacteriophages morphologically defined as prolate or isometric types by electron microscopy were examined for their genome sizes, protein patterns and DNA homologies. These criteria showed that prolate phages are quite homogeneous. In contrast, isometric phages exhibit more differences, particularly in particle sizes and protein compositions. Analysis of DNA hybridizations confirmed that prolate phages can be grouped together as can be isometric phages but for one exception, phage I52. These two families were clearly defined. The unique phage which does not fit in either group probably belongs to a third one which is much less represented. No obvious relationships between these criteria and the lytic spectra were detected. Evidence of the presence of cohesive ends in phage genomes is also presented in this study. A more detailed analysis performed on one member of the prolate group revealed 3' protruding ends made up of around 13 nucleotides on complementary single strands.  相似文献   

5.
Sixty-three virulent bacteriophages of Lactococcus lactis were differentiated by DNA-DNA hybridization. The results, including those of a previous classification of 38 phages of the same bacterial species (P. Relano, M. Mata, M. Bonneau, and P. Ritzenthaler, J. Gen. Microbiol. 133:3053-3063, 1987) show that 48% of the phages analyzed belong to a unique DNA homology group (group III). Phages of this most abundant group had small isometric heads. Group I comprised 29% of the phages analyzed and was characterized by a small phage genome (19 to 22 kilobases) and a particular morphology with a prolate head. Like group III, this group contained representative phages of other classifications. Group II (21%) included virulent and temperate phages with small isometric heads. Two large isometric-headed phages, phi 109 and phi 111, were not related to the three DNA homology groups I, II, and III. The genome of phi 111 was unusually large (134 kilobases) and revealed partial DNA homology with another large isometric phage, 1289, described by Jarvis (type e) (A. W. Jarvis, Appl. Environ. Microbiol. 47:343-349, 1984). The protein compositions of phi 111 and 1289 were similar (three common major proteins of 21, 28, and 32 kilodaltons).  相似文献   

6.
Eleven virulent phages isolated from cheese or yoghurt factories and active on thermophilic lactobacilli used as starters were examined by electron microscopy. Five phages active on Lactobacillus bulgaricus belonged to Bradley's group B and can be divided into two groups with different host specificity. The three phages of the first group (two isolated in France, one in the USA) differ in size; the heads are either icosahedrons or octahedrons and the tails end in short-pronged base plates. The two phages of the second group, isolated in the USA. appear very similar. These are similar in length, have collars and octahedral heads. The non-contractile tails end in clusters of short fibres. An L. lactis phage, isolated in Finland, belongs to the same morphological group. It is similar in overall appearance to the two latter phages of the second group of L. bulgaricus , and there were numerous ghosts with polytails. Five phages. active on L. helveticus belong to Bradley's group A and may be divided into two groups with different host specificity. The first group contains a phage isolated in Finland. The second group is composed of four similar phages isolated in France. The Finnish phage is the largest, but the five phages show similar morphology. They have octahedral heads, firmly attached to the tails by connector devices, and they possess necks. The contractile sheaths have a helicoidal arrangement of hollow tubular subunits. They appear contracted either in a distal or a cervical position, revealing axial cores. Short tail fibres are probably present at the tail tip.  相似文献   

7.
Some Properties of Five New Salmonella Bacteriophages   总被引:5,自引:2,他引:3       下载免费PDF全文
Five bacteriophages were isolated from lysogenic strains of Salmonella potdam. On the basis of plaque morphology, thermostability, serology, host range, one-step growth parameters, and phage morphology, they were divided into three groups: group A, phages P4 and P9c; group B, phages P3 and P9a; and group C, phage P10. Group A phages had a hexagonal head 55 nm in diameter with a short tail 15 nm long. These phages were particularly characterized by high thermostability, lack of serological relationship with any of the other phages, and restriction of lysis to other Salmonella strains of Kauffmann-White group C(1). Group B phages had a head identical in size and shape to that of the A phages, but they possessed a tail 118 nm long with a contractile sheath. A unique feature was the occurrence of tail fibers at the end of the core rather than at the base of the sheath. These phages were considerably less thermostable, had extended host ranges, and were serologically distinct from each other but unrelated to the A phages. The group C phage, P10, had a head identical to that of the A and B phages. It had a tail 95 nm in length, with tail fibers attached to a base plate at the end of a contractile sheath. P10 was highly sensitive to heat, lysed only smooth strains of Salmonella, and showed a degree of serological relationship to both B phages. The relationship of these phage groups to previous Salmonella phage grouping schemes is discussed.  相似文献   

8.
The complete genome sequences of two dairy phages, Streptococcus thermophilus phage 7201 and Lactobacillus casei phage A2, are reported. Comparative genomics reveals that both phages are members of the recently proposed Sfi21-like genus of Siphoviridae, a widely distributed phage type in low-GC-content gram-positive bacteria. Graded relatedness, the hallmark of evolving biological systems, was observed when different Sfi21-like phages were compared. Across the structural module, the graded relatedness was represented by a high level of DNA sequence similarity or protein sequence similarity, or a shared gene map in the absence of sequence relatedness. This varying range of relatedness was found within Sfi21-like phages from a single species as demonstrated by the different prophages harbored by Lactococcus lactis strain IL1403. A systematic dot plot analysis with 11 complete L. lactis phage genome sequences revealed a clear separation of all temperate phages from two classes of virulent phages. The temperate lactococcal phages share DNA sequence homology in a patchwise fashion over the nonstructural gene cluster. With respect to structural genes, four DNA homology groups could be defined within temperate L. lactis phages. Closely related structural modules for all four DNA homology groups were detected in phages from Streptococcus or Listeria, suggesting that they represent distinct evolutionary lineages that have not uniquely evolved in L. lactis. It seems reasonable to base phage taxonomy on data from comparative genomics. However, the peculiar modular nature of phage evolution creates ambiguities in the definition of phage taxa by comparative genomics. For example, depending on the module on which the classification is based, temperate lactococcal phages can be classified as a single phage species, as four distinct phage species, or as two if not three different phage genera. We propose to base phage taxonomy on comparative genomics of a single structural gene module (head or tail genes). This partially phylogeny-based taxonomical system still mirrors some aspects of the current International Committee on Taxonomy in Virology classification system. In this system the currently sequenced lactococcal phages would be grouped into five genera: c2-, sk1, Sfi11-, r1t-, and Sfi21-like phages.  相似文献   

9.
Bacteriophage B2 of Lactobacillus plantarum ATCC 8014, isolated in 1971, belonged to Bradley's group B. Electron microscopy revealed an isometric head (110 nm) and a long non-contractile and flexible tail (500 nm) containing about 75 regularly aligned lateral striations. Burst size was 12-14 phages per infectious centre. The latent period for phage development was 75 min and the rise period approximately 90 min. The phage particle contained 5 major proteins. The buoyant density of the phage in CsCl was measured as 1.575 g/cm3. B2 genome was a linear double-stranded DNA molecule of 37 +/- 1% guanosine-cytosine. Its size was 73 kilobase pairs (kbp). Restriction analysis of the genome showed that 4 restriction enzymes (Xba I, Sac I, Bgl II and Sma I) gave single site cuts in the DNA, while Ava I and Sal I formed 2 and 5 cuts, respectively.  相似文献   

10.
Several new phages were obtained from the abnormally fermented broths and from the air in l-glutamic acid fermentation factory using Br. lactofermentum. These twenty-one phages were classified into five serological groups on the basis of cross-neutralization tests with homologous and heterologous antisera. Group I contained ten phages, i.e., P61, P114, P401, P465, P468I, P508, P650, P204, Ap615 and L2. Group II contained five phages, i.e., P468II, Ap85II, Ap62, Ap72 and SI. Group III contained P468III, Ap85III, Ap93 and Ap518, and groups IV and V one phage each, P4 and L1, respectively.

In view of serological similarities and of differences in the host specificity, the phages of group I are considered as host range mutants derived from a plaque type mutant, P114, of original phage P61.  相似文献   

11.
The Shigella flexneri phage Sf6 has an isometric head with hexagonal symmetry 53nm in diameter. The noncontractile tails in 16 nm long and terminates with a base plate containing six spikes. Sf6 is typical of the C phages in the morphological classification of Bradley. Phage Sf6 processes alpha-1,3-endorhamnosidase activity as demonstrated by methylation and reducing end group sugar analyses of the products obtained on interaction with the O-polysaccharide chain of S.flexneri strains which have the O-group 3,4 antigen. The major end product was an octasaccharide with the following structure: Rha III-GlcNAc-Rha I-Rha II-Rha III-GlcNAc-Rha I-Rha II. Acetylation of 0-2 of rhamnose III of the O-polysaccharide chain, either brought about by Sf6 lysogenization or found in wild-type S. flexneri (3b) strains, prevented enzymatic hydrolysis. O-deacetylation of the polysaccharide chain again made it susceptible to the S6f endorhamnosidase.  相似文献   

12.
The temperate bacteriophage phiLC3, isolated from Lactococcus lactis subsp. cremoris, has an isometric head and a flexible tail containing 1 major protein and 8 minor proteins. Infection of a permissive L. lactis host strain yields a burst of about 50 phages per infected cell with a latent period of 60 min. A detailed restriction map of the phage chromosome was constructed by using 12 different restriction enzymes. The phage chromosome is a 33-kb linear double-stranded DNA molecule with unique cohesive ends and with a G + C content of 36.5%. Chemical sequencing of the DNA ends revealed 13-base 3' extended complementary single strands with a relatively high percentage of G + C. Pulsed-field gel electrophoretic analysis of DNA from a strain lysogenized with phiLC3 was used to localize the prophage to a 320-kb BamHI restriction endonuclease fragment from the host chromosomal DNA. This result indicates that lysogeny involves integration of the phage into the host chromosome. A spontaneous phiLC3 clear plaque mutant that was unable to give rise to lysogens was isolated.  相似文献   

13.
The temperate bacteriophage phiLC3, isolated from Lactococcus lactis subsp. cremoris, has an isometric head and a flexible tail containing 1 major protein and 8 minor proteins. Infection of a permissive L. lactis host strain yields a burst of about 50 phages per infected cell with a latent period of 60 min. A detailed restriction map of the phage chromosome was constructed by using 12 different restriction enzymes. The phage chromosome is a 33-kb linear double-stranded DNA molecule with unique cohesive ends and with a G + C content of 36.5%. Chemical sequencing of the DNA ends revealed 13-base 3' extended complementary single strands with a relatively high percentage of G + C. Pulsed-field gel electrophoretic analysis of DNA from a strain lysogenized with phiLC3 was used to localize the prophage to a 320-kb BamHI restriction endonuclease fragment from the host chromosomal DNA. This result indicates that lysogeny involves integration of the phage into the host chromosome. A spontaneous phiLC3 clear plaque mutant that was unable to give rise to lysogens was isolated.  相似文献   

14.
Two lytic phages, designated S1 and S2, were isolated from culture lysates of a genetically modified serine-producing Escherichia coli K-12. Both phages were highly species-specific for E. coli. S1 was specific for strains of K-12, while S2 attacked strains B and C in addition to K-12 strains. S1 had an icosahedral head 75 nm in diameter and a contractile tail 150 nm long. S2 had an icosahedral head 60 nm in diameter and a noncontractile tail 160 nm long. They were serologically unrelated. Their serotypes were different from those of the other E. coli phages. The latent period and burst size were 28 min and 450, respectively, for S1, and 15 min and 100, respectively, for S2. The phages contained double-stranded DNA with four normal bases. The G+C contents were about 31% for S1 DNA and about 37% for S2 DNA. Restriction patterns of their DNAs were different from each other. The genome sizes were 52 kbp for S1 and 49 kbp for S2. No homology was observed between their genomes. Furthermore, the structural proteins of the two phages also differend. W conclude that phages S1 and S2, differing from each other, could be new phages for E. coli.  相似文献   

15.
《Research in virology》1990,141(6):625-635
The morphology of 6 bacteriophages isolated from Staphylococcus saprophyticus was studied by electron microscopy.Phages had isometric heads and non-contractile tails, thus belonging to the Siphoviridae family. They were subdivided into two morphological groups based on head diameter and tail length. Type I, represented by phages 1154A and 1405, and characterized by an unusually small capsid, may be a new species.  相似文献   

16.
Citrobacter phages 38/37, 31/37, 40/1 and 8/5, isolated from lysogenic cultures, were concentrated and purified by 2 cycles of differential centrifugation. Electron microscopy of the phages has shown that their particles have similar morphology and that they relate to the morphological group A1. The heads of the phages are hexagonal, 50 +/- 2 nm in diameter. The tail of the phage is straight, 112-152 nm in length, with a contracting sheath 11.5-12.5 nm wide. The tails of the phages 38/37 and 40/1 were found to be slightly longer in comparison with the phages 31/37 and 8/5. Chromatographic investigation of DNA preparations of the phages revealed the presence of 4 nitrous bases. Identification of the latter permitted us to relate them to common nitrous bases. DNA of the phages is double-stranded and belongs to a weakly expressed guanine-cytosine type. The content of guanine and cytosine in DNA of the phage 38/37 amounts to 56.68%, that of the phage 31/37 to 56.75, of the phage 40/1 to 57.36% and of the phage 8/5 to 55.58%. No substantial variations were observed in the DNA composition of the phages.  相似文献   

17.
Four phages isolated from carrier strains of Clostridium perfringens type C belong to two classes. The three phages of class I, c1, c3, and c4, and homoimmune and serologically closely related. The phage of class II, c5, is heteroimmune to the class I phages and not related to them serologically. Transduction experiments with several of the phages were negative. Mutants of the indicator strain with surface alterations occurred spontaneously in stock cultures. Electron micrographs show the phages of each class to be distinct yet similar, having polyhedral heads of about the same diameter 55 nm, and long, flexible tails without sheaths or collars. Phages c4 and c5 were characterized for their lysogenic properties. Phage c4 was inducible with mitomycin C. Both c4 and c5 were temperate viruses by the test of stability of their respective lysogens to phage-specific antisera.  相似文献   

18.
The Lactococcus lactis temperate bacteriophage BK5-T is one of twelve type phages that define L. lactis phage species. This paper describes the nucleotide sequence and analysis of a 21-kbp region of the BK5-T genome and completes the nucleotide sequence of the genome of this phage. The 40,003-nucleotide linear genome encodes 63 open reading frames. Sequence runoff experiments showed that the cohesive ends of the BK5-T genome contained a 12-bp 3' single-stranded overhang with the sequence 5'-CACACACATAGG-3'. Two major BK5-T structural proteins, of approximately 30 and 20 kDa, were identified, and N-terminal sequence analysis determined that they were encoded by orf7 and orf12, respectively. A 169-bp fragment containing a 37-bp direct repeat and several smaller repeat sequences conferred resistance to BK5-T infection when introduced in trans to the host cell and is likely a part of the BK5-T origin of replication (ori).  相似文献   

19.
Deoxyribonucleic acids were isolated from Brevibacterium lacto fermentum No. 2256 and its four representative phages belonging to different serological groups, i.e., P465 (group I), P 468 II (group II), Ap 85 III (group III) and P4 (group IV), by phenol extraction.

DNA’s isolated from the four phages contained only usual four bases, i.e., guanine, adenine, cytosine and thymine. The G-C content of the phage DNA was determined by thermal denaturation method (Tm); the values of P465, P 468 II, Ap 85 III and P4 were 54.0, 54.6, 56.6 and 55.3%, respectively. Sedimentation coefficient was measured by ultracentrifugal analysis using ultraviolet optics; s20,w of the phage DNA’s were 15.5 to 31.8 s.

Unusual bases were not detected also in the host bacterial DNA. The G-C content of the bacterial DNA determined by paperchromatography was 55.1% which came very close to the G-C content derived from the Tm.

Morphological properties of the P- and Ap-series phages described in previous papers were examined by means of electron microscopy, analytical centrifugation, CsCl density-gradient centrifugation and ultrafiltration.

In view of the buoyant density of phage particles, fourteen Brevibacterium phages were classified into four groups, i.e., the phages under group I had buoyant density of 1.511 to 1.514g cm?3, and those under groups II, III and IV, densities of 1.482, 1.492 and 1.508 g cm?3, respectively; and above grouping corresponded to that by the serological chracteristics of the phages.

Electron microscopic observation by means of shadow-casting or negative staining recognized all the phages as tadpole-shaped; their particles having polyhedral head (40 ~ 70 mμ in diameter) and long tail (80 ~ 275 mμ in length).

In relation to particle sizes of the phages as estimated by all of above-mentioned methods, no significant differences were observed between the sizes calculated from ultrafiltration and those obtained directly from electron micrographs by negative staining.  相似文献   

20.
Antiphage sera were produced in rabbits against the HM-phages of Clostridium saccharoperbutylacetonicum; on the basis of cross-neutralization experiments with homologous and heterologous antisera, the twelve HM-phages were classified into three serological groups, termed I, II and III. Group I contained seven phages, i.e., HM 1, HM 2, HM 8, HM 9, HM 10, HM 11 and HM 12. Group II contained four phages, i.e., HM 3, HM 4, HM 5 and HM 6, and group III one phage, i.e., HM 7. This classification was in accord with morphological one that was reported in the preceding paper. By using the K value of antisera, the degree of serological relatedness among the phages within groups I and II was demonstrated. On the bases of serological similarities and of dissimilarities in host-rang specificity, the phages of groups I and II are considered as host range mutants derived from an identical ancestor, HM 1 and HM 3, respectively.  相似文献   

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