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Septation and filament splitting in Methanospirillum hungatei

Beveridge, Terry J. ; Harris, Bob J. ; Sprott, G. Dennis

Canadian Science Publishing ; 1987

In: Canadian Journal of Microbiology Vol. 33, No. 8 ( 1987-08-01), p. 725-732

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In: Canadian Journal of Microbiology, Canadian Science Publishing, Vol. 33, No. 8 ( 1987-08-01), p. 725-732

Abstract: Methanospirillum hungatei GP1 consists of chains of rod-shaped cells separated from one another by "cell spacers" comprised of two spacer plugs sandwiching a loose, amorphous material. The chain is encased within a highly ordered sheath to form a cylindrical, multicelled filament about 5 to 10 cells long under our growth conditions. Cells within the filament divide by septation in a manner similar to gram-positive eubacteria; the plasma membrane and wall grow inward to partition the cell in two. Yet, unlike gram-positive eubacteria, the wall is flexible, since cells round up when extruded from the sheath; the shape-maintaining structures are the sheath and spacer plugs. After septation and daughter cell separation, the cell spacer grows between the new cells. Initially, the growth of a spacer plug is detected by electron microscopy as the addition of electron-dense layers, exhibiting an 18.0-nm periodicity, at the surface of one new cell pole. Usually three layers develop at this pole before plug assembly is initiated at the opposite pole. As assembly proceeds, the two newly formed plugs separate from each other to form the loose, amorphous central zone of the spacer. Presumably, cell and cell spacer elongation requires sheath extension, since filament growth is observed. The amorphous cell spacer zone continues to expand as the spacer grows larger until lesions appear in the sheath near the zone's midpoint. Usually, the largest spacer zones are found towards each filament's centre and the lesions split the chain in two. Consequently, M. hungatei requires two separate events for filament division: cell replication which is a septation process and filament splitting which is a "cell spacer" breakage.

Type of Medium: Online Resource

ISSN: 0008-4166 , 1480-3275

URL: Article

DOI: 10.1139/m87-126

RVK:

WA 15000

Language: English

Publisher: Canadian Science Publishing

Publication Date: 1987

detail.hit.zdb_id: 280534-0

detail.hit.zdb_id: 1481972-7

SSG: 12

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Cell division and filament splitting in Methanothrix concilii

Beveridge, Terry J. ; Harris, Bob J. ; Patel, Girishchandra B. ; [et al.]

Canadian Science Publishing ; 1986

In: Canadian Journal of Microbiology Vol. 32, No. 10 ( 1986-10-01), p. 779-786

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In: Canadian Journal of Microbiology, Canadian Science Publishing, Vol. 32, No. 10 ( 1986-10-01), p. 779-786

Abstract: Cells of Methanothrix concilii do not possess rigid, shape-forming cell walls; they obtain their cellular form from the portions of the sheath and spacer plugs which enclose them. Electron microscopy has shown that cell division proceeds by the ingrowth of spacer plugs, like the closing of a camera iris, from select regions of the sheath; this process forces the cells to split in two. Therefore, each spacer plug which traverses the filament of cells is a completed division annulus. Spacer plugs are two-layered structures; one layer is an assembly of fine concentric rings and is the first to be laid down during the division ingrowth. The second layer consists of larger, raised, concentric ribbons which progressively follow the advance of the first layer during division. Although cells within the filament are typically 2.5 μm long, new daughter cells are ca. 1.0 μm and can grow to ca. 4.0 μm before division begins. Frequently, a developing spacer plug partitions a cell so that one daughter is a small, nonreplicating unit of protoplasm sandwiched between two completed plugs; eventually, this protoplasmic unit dies leaving a void in the chain of cells. The filament is susceptible to breakage at this juncture. In this instance, each of the two "void" plugs becomes a new terminal plug for the new ends of the split filament. This type of replication requires both cell division and filament splitting, and the series of structural events which are involved present a new form of prokaryotic division.

Type of Medium: Online Resource

ISSN: 0008-4166 , 1480-3275

URL: Article

DOI: 10.1139/m86-143

RVK:

WA 15000

Language: English

Publisher: Canadian Science Publishing

Publication Date: 1986

detail.hit.zdb_id: 280534-0

detail.hit.zdb_id: 1481972-7

SSG: 12

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Reduction of Cr(VI) by a Consortium of Sulfate-Reducing Bacteria (SRB III)

Fude, Li ; Harris, Bob ; Urrutia, Matilde M. ; [et al.]

American Society for Microbiology ; 1994

In: Applied and Environmental Microbiology Vol. 60, No. 5 ( 1994-05), p. 1525-1531

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In: Applied and Environmental Microbiology, American Society for Microbiology, Vol. 60, No. 5 ( 1994-05), p. 1525-1531

Abstract: A consortium of bacteria with tolerance to high concentrations of Cr(VI) (up to 2,500 ppm) and other toxic heavy metals has been obtained from metal-refinishing wastewaters in Chengdu, People's Republic of China. This consortium consists of a range of gram-positive and gram-negative rods and has the capacity to reduce Cr(VI) to Cr(III) as amorphous precipitates which are associated with the bacterial surfaces. An endospore-producing, gram-positive rod and a gram-negative rod accumulate the most metallic precipitates, and, over time, 80 to 95% of Cr can be removed from concentrations ranging from 50 to 2,000 ppm (0.96 to 38.45 mM). Kinetic studies revealed a first-order constant for Cr removal of 0.1518 h -1 for an initial concentration of 1,000 ppm (19.3 mM), and the sorption isothermal data could be interpreted by the Freundlich relationship. The sorption was not entirely due to a passive interaction with reactive sites on the bacterial surfaces since gamma-irradiated, killed cells could not immobilize as much metal. When U or Zn was added with the Cr, it was also removed and could even increase the total amount of Cr immobilized. The consortium was tolerant to small amounts of oxygen in the headspace of tubes, but active growth of the bacteria was a requirement for Cr immobilization through Cr(VI) reduction, resulting in the lowering of E h . Our data suggest that the reduction was via H 2 S. This consortium has been named SRB III, and it may be useful for the bioremediation of fluid metal-refining wastes.

Type of Medium: Online Resource

ISSN: 0099-2240 , 1098-5336

URL: Article

DOI: 10.1128/aem.60.5.1525-1531.1994

RVK:

WA 15000

Language: English

Publisher: American Society for Microbiology

Publication Date: 1994

detail.hit.zdb_id: 223011-2

detail.hit.zdb_id: 1478346-0

SSG: 12

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Book reviews

Hudson, W. J. ; Knight, John ; Thompson, Elaine ; [et al.]

Informa UK Limited ; 1975

In: Australian Outlook Vol. 29, No. 1 ( 1975-04), p. 111-126

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In: Australian Outlook, Informa UK Limited, Vol. 29, No. 1 ( 1975-04), p. 111-126

Type of Medium: Online Resource

ISSN: 0004-9913

URL: Article

DOI: 10.1080/10357717508444527

RVK:

PR 1000

Language: English

Publisher: Informa UK Limited

Publication Date: 1975

detail.hit.zdb_id: 1476374-6

SSG: 3,6

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The ultrastructure of Methanothrix concilii , a mesophilic aceticlastic methanogen

Beveridge, Terry J. ; Patel, Girish B. ; Harris, Bob J. ; [et al.]

Canadian Science Publishing ; 1986

In: Canadian Journal of Microbiology Vol. 32, No. 9 ( 1986-09-01), p. 703-710

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In: Canadian Journal of Microbiology, Canadian Science Publishing, Vol. 32, No. 9 ( 1986-09-01), p. 703-710

Abstract: Methanothrix concilii strain GP6 consists of a chain of rod-shaped cells, ca. 2.5 μm in length and 0.8 μm in width, which are encased in a tubular proteinaceous sheath. The sheath is composed of annular hoops, ca. 8.0 nm wide and 9.0 nm thick, which are stacked together to form the tube. The ends of the sheath, and therefore the cell filament, are blocked by single, multilayered, 13.5 nm thick, circular plates, designated as "spacer plugs," which contain a series of concentric rings; these also separate the individual cells within each filament. Each cell is therefore bounded by a tubular section of sheath and two spacer plugs. Completely encapsulating each cell, and lying between the sheath and cell, is an amorphous granular matrix. Overlying the plasma membrane and surrounding each protoplast is a thin veil of material which resembles a cell wall, but which is unable to maintain the rod shape when cells are extruded from the sheath.

Type of Medium: Online Resource

ISSN: 0008-4166 , 1480-3275

URL: Article

DOI: 10.1139/m86-128

RVK:

WA 15000

Language: English

Publisher: Canadian Science Publishing

Publication Date: 1986

detail.hit.zdb_id: 280534-0

detail.hit.zdb_id: 1481972-7

SSG: 12

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