by slowly humping the ground to get to sparta and beyond
Spirochaetes bacteria move by rotating and flexing their flexible, helical-shaped body. They use special appendages called axial filaments or endoflagella, which are located underneath the outer sheath, to generate the twisting motion. This unique flagellar arrangement enables spirochaetes to move through viscous environments, such as bodily fluids or mucus.
By Spirochaetes, a helical bacteria which have a specialized internal structure known as the axial filament which is responsible for rotation of the cell in a spiral fashion and consequent locomotion, sort of like a corkscrew motion. Credit: MicrobiologyBytes, Bacterial Mobility
Spirochaetes Deinococcus-Thermus Aquificae Cyanobacteria Chloroflexi Thermotogae Proteobacteria Firmicutes
Spirochaetes is a phylum of distinctive Gram-negative bacteria, which have long, helically coiled cells.[1] Spirochetes are chemoheterotrophic in nature, with lengths between 5 and 250 µm and diameters around 0.1-0.6 µm.[citation needed] Spirochaetes are distinguished from other bacterial phyla by the location of their flagella, sometimes called axial filaments, which run lengthwise between the cell membrane and outer membrane. These cause a twisting motion which allows the spirochaete to move about. When reproducing, a spirochaete will undergo asexual transverse binary fission
Spirochaetes is a class which belongs in the phylumSpirochaetae.All "spirochaetes" belong to the same order - so they are members of both the phylum and the class.
The simplest shape is a round sphere or ball. Bacteria formed like this are called cocci (singular coccus). The next simplest shape is cylindrical. Cylindrical bacteria are called rods (singular rod). Some bacteria are basically rods but instead of being straight they are twisted or bent or curved, sometimes in a spiral - these bacteria are called spirilla (singular spirillum). Spirochaetes are tightly coiled up bacteria.
By Spirochaetes, a helical bacteria which have a specialized internal structure known as the axial filament which is responsible for rotation of the cell in a spiral fashion and consequent locomotion, sort of like a corkscrew motion. Credit: MicrobiologyBytes, Bacterial Mobility
Spirochaetes Deinococcus-Thermus Aquificae Cyanobacteria Chloroflexi Thermotogae Proteobacteria Firmicutes
Spirochaetes are best seen under darkfield microscopy.
Spirochaetes is a phylum of distinctive Gram-negative bacteria, which have long, helically coiled cells.[1] Spirochetes are chemoheterotrophic in nature, with lengths between 5 and 250 µm and diameters around 0.1-0.6 µm.[citation needed] Spirochaetes are distinguished from other bacterial phyla by the location of their flagella, sometimes called axial filaments, which run lengthwise between the cell membrane and outer membrane. These cause a twisting motion which allows the spirochaete to move about. When reproducing, a spirochaete will undergo asexual transverse binary fission
the rod shaped bacteria has a large surface area the spiral shaped bacteria has "fingers" to help move and the spherical shaped bacteria are funny!
Spirochaetes is a class which belongs in the phylumSpirochaetae.All "spirochaetes" belong to the same order - so they are members of both the phylum and the class.
it's probably because flagellum makes bacteria move so there is a chance bacteria can move out of your lungs
The simplest shape is a round sphere or ball. Bacteria formed like this are called cocci (singular coccus). The next simplest shape is cylindrical. Cylindrical bacteria are called rods (singular rod). Some bacteria are basically rods but instead of being straight they are twisted or bent or curved, sometimes in a spiral - these bacteria are called spirilla (singular spirillum). Spirochaetes are tightly coiled up bacteria.
Fontana silver staining.
its both anaerobic and aerobic( depends on the type)
redi
Bacteria move from one place to the other in search of food