- Do fish names match the scientific names of the fish?
- How accurate are the names of fish?
- How accurate is three-dimensional fish?
- How do fish navigate through three-dimensional space?
- What is FISH fluorescence in situ hybridization?
- What is 3D fish used for in chromatography?
- Why do animals fly in isotropic space?
- How do fish receive information from each other?
- How do salmon find their way around?
- What is fish hybridization used for?
- Can fluorescence in situ hybridization detect larger copy number variation?
- What is needed for fluorescence in situ hybridization?
- How are hybridization sites detected in in situ studies?
- How to hybridize aquarium fish?
- What is the basic principle of DNA hybridization in fish?
- What is the FISH technique used for?
- What is the application of fish in oncology?
- What is 3-D fish used for?
- How is fish different from other techniques used to study chromosomes?
- Why don’t animals go into space?
- What invertebrate animals can fly?
- Why do fish swim towards the light?
- Why did scientists use animals to explore space?
Do fish names match the scientific names of the fish?
Occasionally these names match the official, scientific names of the fish (such as the Bettas or Tetras), but more often the common name bears little resemblance to the scientific name by which the fish is categorized in the scientific literature.
How accurate are the names of fish?
Unfortunately, the common, unscientific, names of fish are very inaccurate. For example, there are a number of different species of fish that go by the name tilapia, tuna or red snapper, respectively—and not all of them are kosher.
How accurate is three-dimensional fish?
Accurate analysis of three-dimensional FISH is highly dependent on excellent quality confocal microscopy and image analysis procedures. FISH technology also allows genome-wide screening of chromosomal gains and losses, which is comparative in in situ hybridization (CGH).
How do fish navigate through three-dimensional space?
This is unlikely, given the cues that are available to the fish to navigate through three-dimensional space, and indeed it has been shown that fish separate the vertical and horizontal dimensions of space during a navigation task (Holbrook and Burt de Perera, 2009).
What is FISH fluorescence in situ hybridization?
Fluorescence In Situ Hybridization (FISH) For FISH, the chromosomal DNA is denatured on the slides in 70 % formamide-2XSSC solution at 68–70 °C for 2 min. The slides are dehydrated and then air-dried.
What is 3D fish used for in chromatography?
3-D FISH 3-D FISH has been developed to analyze spatial positioning and relative organization of chromosomes and sub-chromosomal regions within the cell nuclei. Paraformaldehyde is usually used as cross-linking fixation reagents to preserve nuclear architecture and chromatin organization.
Why do animals fly in isotropic space?
This isotropic representation of three-dimensional space would make adaptive sense for animals that fly freely through volumes, allowing equally precise navigation in both dimensions.
How do fish receive information from each other?
In other words, the fish receive one stream of information that contains both horizontal and vertical cues, and that is not separated into different components that are tied to each dimension.
How do salmon find their way around?
Megan McPhee, research assistant professor at the University of Montana’s Flathead Lake Biological Station, steers us to an answer: This behavior is best exemplified by salmon, which combine conventional open-water navigation and a keen sense of smell to find their way.
What is fish hybridization used for?
Fluorescence in situ hybridization (FISH) is widely used for the localization of genes and specific genomic regions on target chromosomes, both in metaphase and interphase cells. The applications of FISH are not limited to gene mapping or the study of genetic rearrangements in human diseases.
Can fluorescence in situ hybridization detect larger copy number variation?
Illustration of two different color probes hybridized at two different locations on a chromosome. The fluorescence in situ hybridization technique is capable of detecting larger copy number variation efficiently. Scientists are now applying different variations of FISH for different cytogenetic applications.
What is needed for fluorescence in situ hybridization?
Illustration of the denaturation, hybridization, and detection process of fluorescence in situ hybridization. There are two major elements required in a conventional FISH assay: the probe and the target sequence. In the very first step, before doing any wet lab work we have to select the sequence or the portion of a chromosome we wish to study.
How are hybridization sites detected in in situ studies?
Early in situ studies used radioactive RNA or DNA probes that were labeled with 3H or 135I, and the sites of hybridization were detected by autoradiography. These techniques have been successfully applied to both animals and plants.
How to hybridize aquarium fish?
Some aquarium fishes and cultured species do hybridize readily if matured male and female members are allowed to live together. 2. Use Gonadotropin Hormone for hybridization. 3.
What is the basic principle of DNA hybridization in fish?
Principle Involved in Fish The basic principle involved is hybridization of nuclear DNA of either interphase cells or of metaphase chromosomes affixed to a microscopic slide, with a nucleic acid probe. The probes are either labeled indirectly with a hapten or directly through incorporation of a fluorophore.
What is the FISH technique used for?
FISH can be used to detect specific DNA or ribonucleic acid (RNA) sequences within the context of the cell. Here, the technique may help the surgeon to determine the degree of angiogenesis and adipogenesis that arises from the recipient versus grafted cells. Dedifferentiated Liposarcoma (DDLPS)
What is the application of fish in oncology?
With the help of FISH, the detection of chromosome signals in interphase nuclei is possible. Hence, this may be a reliable method for detection of common aneuploidies before the implantation takes place [44]. Application of FISH in oncology Chronic Myeloid Leukemia (CML)
What is 3-D fish used for?
3-D FISH has been developed to analyze spatial positioning and relative organization of chromosomes and sub-chromosomal regions within the cell nuclei. Paraformaldehyde is usually used as cross-linking fixation reagents to preserve nuclear architecture and chromatin organization.
How is fish different from other techniques used to study chromosomes?
Different from most other techniques used for chromosomes study, FISH has no need to be performed on cells that are actively dividing, which makes it a very versatile procedure. Fig. 1 Scheme of the principle of the FISH experiment to localize a gene in the nucleus.
Why don’t animals go into space?
“Animals don’t go into space very often,” Lewis says. “There are so few flight opportunities for a mission to include animals, so the project has to be pretty important to earn a spot on any trip into space. When animals do make the trip, their welfare is a key concern.”
What invertebrate animals can fly?
There are also some invertebrate animals that can fly. Invertebrates are animals that don’t have backbones. The most common invertebrates that fly are insects. Insects were the first animals that developed the ability to fly. Scientists estimate that insects started flying at least 320 million years ago!
Why do fish swim towards the light?
If a light shines, the fish use that as their guide source and swim towards the light. Baby mammals have a hard time in space because they normally huddle for warmth-and in space, it’s hard to huddle when bodies drift and float.
Why did scientists use animals to explore space?
In the earlier days of space exploration, nobody knew if people could survive a trip away from Earth, so using animals was the best way to find out. In 1948, a rhesus macaque monkey named Albert flew inside a V2 rocket.