RNA Splicing

In molecular biology, splicing is a modification of an RNA after transcription, in which introns are removed and exons are joined. This is needed for the typical eukaryotic messenger RNA before it can be used to produce a correct protein through translation. For many eukaryotic introns, splicing is done in a series of reactions which are catalyzed by the spliceosome, a complex of small nuclear ribonucleoproteins (snRNPs), but there are also self-splicing introns.

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How Is Dna Testing Done

DNA testing is done for many different reasons. DNA evidence can link an alleged criminal to a crime scene. DNA paternity and maternity testing can identify a child's father or mother. DNA relationship testing can determine if two individuals are full or half siblings. DNA ancestry testing can determine ethnic origins and genealogical roots. How DNA testing is done depends on the results desired and the samples available. DNA fingerprinting (or profiling as it's also known) is the process of analyzing and comparing two DNA samples. Only identical twins have the exact same DNA sequence, everyone else's DNA is unique. This makes DNA the perfect way to link individuals to each other or to locations where they have been. The entire DNA chain is incredibly long, much to long to examine all of it. Human DNA is made up of about 3.3 billion base pairs. The differences between DNA samples occur only in small segments of the DNA--the rest of the DNA is pretty much the same. DNA testing focuses on those segments that are known to differ from person to person. As DNA testing has evolved over time, the testing methods have become more precise and are able to work with much smaller DNA samples. Early DNA testing was done using dime-size drops of blood. Today's tests can extract DNA from the back of a licked stamp. The DNA must be extracted from whatever sample is provided. DNA must be isolated and purified before it can be compared. In essence, it has to be "unlocked" from the cell in which it exists. The cell walls are usually dissolved with a detergent. Proteins in the cell are digested by enzymes. After this process, the DNA is purified, concentrated, and tested. DNA testing is done most often today using a process called "short tandem repeats," or STR. Human DNA has several regions of repeated sequences. These regions are found in the same place on the DNA chain, but the repeated sequences are different for each individual. The "short" tandem repeats (repeated sequences of two to five base pairs in length) have been proven to provide excellent DNA profiling results. STR is highly accurate--the chance of misidentification being one in several billion. source:articlebase

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Dna Testing to Find Your Ancestors

The use of DNA testing for determining a person’s ancestry is becoming more and common. By linking your maternal DNA (mitochondrial DNA) and your paternal DNA (the y-chromosome), these ancestry databases are effectively able to link you to other people to whom you may be related and thereby determining to some degree your ancestral lineage and where your ancestors came from. DNA Ancestry Testing – Y-Chromosome and Mitochondial DNA The first thing that genealogists look for is a father-to-son linkage, tracked down the Y chromosome which only men posses. Therefore, they are able to observe the Y chromosome that appears in other people and compare them, to determine where a paternal link may be present. This comparison, in essence, allows for the genealogist to try and find paternal linkages amongst people. The other thing that can be done is to link maternal DNA. This in particular is a very powerful testing method that allows for accurate tracking back over many generations because of the mitochondria. Unlike DNA found in the nucleus, which can be altered and changes as environments change, mitochondrial DNA is a direct connection from child to mother that can’t be altered along the way. By taking a sample of the mitochondrial DNA, which is different than the DNA found in the nucleus, the genealogist can determine a maternal linkage. By taking this information, they can, once again, find, perhaps those long lost cousins or celebrity ancestors. DNA Ancestry Testing – Matching to a DNA Database However, can this really be effective at tracing family lines? How can they tell you who you’re related to throughout history? Some online ancestry websites create a database of DNA against which your can be matched. By taking a simple mouth swab and run the DNA tests, they then save the DNA profile that is collected. However, the key is for them to continuously compare other people’s DNA profiles to what your profile is. In essence, this will create a massive database that will determine instantly if a piece of code is a direct comparison to yours. So, as the database grows more and more, more and more relatives and ancestors can be discovered for more and more people.DNA Ancestry Testing – Determine geographical ancestry Furthermore, these DNA tests are able to help you find out where you come from. It’s argued that 170,000 years ago, humans left Africa and migrated elsewhere across the globe. Some went to Europe, some went to southern Africa, while others went to Asia to settle. By comparing the DNA profile of a person to that of researched ethnic groups, it is possible to provide information about where people are from. DNA testing has become a very useful method for people to find long lost relatives. Furthermore, the argument of the true nature of one’s ethnic origins can finally be resolved by DNA testing processes. Of course, as the databases grow and more research is conducted on, the usefulness of these types of tests will increase greatly.

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The Dna Testing Process

DNA testing is becoming increasingly used to determine genetic links between individuals as a highly accurate and individual way of identifying people and their relationships with one another. The process itself is one carried out in advanced laboratories under the strictest of lab conditions to ensure no cross-contamination and improve result accuracy. As such DNA testing can be said to present with a high degree of accuracy any particular biological relationship that may exist, particularly in paternity disputes where samples of both the mother and the father are provided. Preparing For the DNA Test and Collecting Samples Normally a DNA testing kit is sent to the person who ordered the test by the company from whom the order was made. The test begins with samples being collected from everyone preparing to undertake the test. In most cases, that will mean the mother, the father (alleged) and the child concerned. Samples are taken by the way of oral swabs, which collect cheek cells which are then dried and passed on for testing. In order to prepare the sample, it is first important to make sure that the cotton of the swab never touches any other surface including your hands, and that you have a number of swabs for each person taking the test to ensure reliability in the end results. Press the swab into the inside of the cheek and behind the lips, as well as the tongue area in order to get as good as possible a sample from the mouth. Having left to dry for around an hour, the swab should be carefully sealed off before the collation and mailing process. Testing the Samples After all the samples have been collected and labelled accordingly, they should be sent off to the laboratory for the DNA testing analysis. At this stage, the samples will be individually examined and DNA will be extracted from within the cells present in the sample. The same will be done for both the other two parties to the test and the results of the DNA profiles will be compared. The person analysing your results will be looking for a 50/50 split between your alleles, contained within the DNA, between those found on your mother and father. As you can only inherit genes already carried by one or both parents, no alleles can be present in the child's DNA that are not present in that of either parent. Naturally, this is where it becomes obvious when there is and is not a genetic link between those taking the DNA test. Further to that, the results are processed through the appropriate systems and a conclusion is reached, having covered 16 of the locus which are used as the template by which samples are matched. Receiving the DNA Test Results Once the DNA test is completed, the result will be sent to the participants via email, letter, fax or as otherwise agreed. The DNA test report should show the individual profile of each person that submitted a sample for the paternity test. Also the result should show the percentage probability of the stated relationship, for example in a DNA paternity test this is normally in excess of 99.99%. There's no doubt about it - DNA testing is here to stay. Whilst most people are not very knowledgeable on how DNA paternity testing works, it is probably a good idea to gain some level of understanding given the way in which DNA testing is likely to continue to affect our lives over the coming decades. With growing calls for more extensive DNA databases and records for crime prevention, DNA testing and analysis looks set to remain at the forefront of the civil liberties/state interests debate.

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RNA - Transcription

Introduction:

 

The differences in the composition of RNA and DNA have already been noted. In addition, RNA is not usually found as a double helix but as a single strand. However, the single polynucleotide strand may fold back on itself to form portions which have a double helix structure like the tertiary structure of proteins.

 

The biosynthesis of RNA, called transcription, proceeds in much the same fashion as the replication of DNA and also follows the base pairing principle. Again, a section of DNA double helix is uncoiled and only one of the DNA strands serves as a template for RNA polymerase enzyme to guide the synthesis of RNA. After the synthesis is complete, the RNA separates from the DNA and the DNA recoils into its helix.

 

The transcription of a single RNA strand is illustrated in the graphic on the left. One major difference is that the heterocyclic amine, adenine, on DNA codes for the incorporation of uracil in RNA rather than thymine as in DNA. Remember that thymine is not found in RNA and do not confuse the replacement of uracil in RNA for thymine in DNA in the transcription process. For example, thymine in DNA still codes for adenine on RNA not uracil, while the adenine on DNA codes for uracil in RNA.

 

Note that the new RNA (red) is identical to non coding DNA with the exception of uracil where thymine was located in DNA.

 

There are three major types of RNA which will be fully explained in a later section. Although RNA is synthesized in the nucleus, it migrates out of the nucleus into the cytoplasm where it is used in the synthesis of proteins. 

RNA Transcription Process:

 

The RNA transcription process occurs in three stages: initiation, chain elongation, and termination.

The first stage occurs when the RNA Polymerase-Promoter Complex binds to the promoter gene in the DNA. This also allows for the finding of the start sequence for the RNA polymerase. The promoter enzyme will not work unless the sigma protein is present (shown in blue in graphic). Specific sequences on the non coding strand of DNA are recognized as the signal to start the unwinding process.

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Abamectin

INTRODUCTION 

Abamectin is a mixture of avermectins containing > 80% avermectin B1a and <>

 

Use

 

Abamectin is used to control insect and mite pests of a range of agronomic, fruit, vegetable and ornamental crops, and it is used by homeowners for control of fire ants. Abamectin is also used as a veterinary antihelmintic. Resistance to abamectin based antihelmintics, although a growing problem, is not as common as to other classes of veterinary antihelmintics.

 

ACUTE TOXICITY

 

Abamectin is a highly toxic material, however most formulated products containing abamectin are of low toxicity to mammals. Emulsifiable concentrate formulations may cause moderate eye irritation and mild skin irritation. Symptoms of poisoning observed in laboratory animals include pupil dilation, vomiting, convulsions and/or tremors, and coma . 

Abamectin acts on insects by interfering with neural and neuromuscular transmission. It acts on a specific type of synapse located only within the brain and is protected by the blood-brain barrier. However, at very high doses, the mammalian blood-brain barrier can be penetrated, causing symptoms of CNS depression such as incoordination, tremors, lethargy, excitation and pupil dilation. Very high doses have caused death from respiratory failure.

Abamectin is not readily absorbed through skin. Tests with monkeys show that less than 1% of dermally applied abamectin was absorbed into the bloodstream through the skin . Abamectin does not cause allergic skin reactions. 

The amount of a chemical that is lethal to one-half (50%) of experimental animals fed the material is referred to as its acute oral lethal dose fifty, or LD50. The oral LD50 for abamectin in rats is 11 mg/kg, and in mice range from 14 to > 80 mg/kg. The dermal LD50 for technical abamectin on rats and rabbits is > 330 mg/kg. The oral LD50 for the product Affirm 0.011% Fire Ant Bait in rats is > 5,000 mg/kg, and its dermal LD50 on rabbits is > 2,000 mg/kg. The oral LD50 for the 1.8% w/v Abamectin EC product in rats is 300 mg/kg, and the dermal LD50 for this product on rabbits is > 2,000 mg/kg . 

CHRONIC TOXICITY

 

In a 1-year study with dogs given oral doses of 0, 0.25, 0.5, or 1 mg/kg/day, there were no changes in tissue at any dose level. However, some dogs at the 0.5 and 1 mg/kg/day levels had pupillary dilation, weight loss, lethargy, tremors and recumbency. The NOEL for this study was 0.25 mg/kg/day. Similar results were seen in a 2-year study with rats fed 0, 0.75, 1.5, or 2 mg/kg/day. No changes in the nervous or muscular systems were observed, but rats in all the dosage levels exhibited body weight gains significantly higher than the controls. A few individuals in the high dose group exhibited tremors .

When mice were fed 8 mg/kg/day, the highest dose tested, for 94 weeks, the males developed dermatitis and changes in blood formation in the spleen, while females exhibited tremors and weight loss.

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Abietic acid

Abietic acid (also known as abietinic acid or sylvic acid), a resin acid, is the primary irritant in pine wood and resin, isolated from rosin (via isomerization) and is the most abundant of several closely related organic acids that constitute most of rosin, the solid portion of the oleoresin of coniferous trees. Its ester is called an abietate. 

Abietic acid is a weak contact allergen, however compounds resulting of its oxidation by air elicit stronger response. It is soluble in alcohols, acetone, and ethers.

 

Synonym Name:Sylvic acid; abietinic acid; abieta-7,13-dien-18-oic acid; 1-phenanthrenecarboxylic acid, 1,2,3,4,4a,4b,5,6,10,10a-decahydro-1,4a-dimethyl-7-(1-methylethyl)-, (1R,4aR,4bR,10aR)-; (1R,4aR,4bR,10aR)-7-isopropyl-1,4a-dimethyl-1,2,3,4,4a,4b,5,6,10,10a-decahydro-phenanthrene-1-carboxylic acid

Commercial abietic acid is usually a glassy or partly crystalline yellowish solid that melts at temperatures as low as 85°C (185°F). It belongs to the diterpene group of organic compounds (compounds derived from four isoprene units). It is used in lacquers, varnishes, and soaps, and for the analysis of resins and the preparation of metal resinates. It is listed in the Toxic Substances Control Act inventory. 

Rosin has been used for centuries for caulking ships. It is also rubbed on the bows of musical instruments to make them less slippery. In modern times methods have been developed for improving the properties of the rosin acids, which are soft, tacky, and low-melting and subject to rapid deterioration by oxidation in air. Stability is greatly increased by heat treatment. 

Rosin acids are converted into ester gum by reaction with controlled amounts of glycerol or other polyhydric alcohols. Ester gum has drying properties and is used in paints, varnishes, and lacquers.

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