Do you know what sex your bird is? While many caretakers are content to guess, others want to know with certainty if their beloved Max is really a Maxine. And if you're considering adding another bird to your family's flock, knowing your pet's gender can help you choose the most compatible cagemates.
When the gender of a bird can be determined visually, he or she is a member of a DIMORPHIC species. All members of MONOMORPHIC species, however, look the same, and you cannot distinguish males from females based on their appearance. The latter group includes macaws, conures and cockatoos. Some species of lovebirds are monomorphic, while others, such as the Abyssinian, are dimorphic.
If your avian companion is monomorphic, however, your pet's identity need not remain a mystery. Many avian caretakers choose to have their birds surgically sexed. After anesthetizing the bird, a veterinarian makes a small incision in the abdomen and is thus able to view the animal's internal sex organs. This procedure is safe and quick when executed by an experienced doctor, but is not recommended for very young birds. As they have not yet reached sexual maturity, their sex organs are much more difficult to distinguish.
Up until recent years, this invasive procedure was the only reliable method available. Thanks to the advent of DNA sexing, however, birds can be accurately sexed without the possible complications of surgery and anesthesia. A blood sample is collected from a vein or toenail--a procedure that can be done easily and painlessly by the bird's caretaker--and sent via mail to a laboratory, where it is analyzed to determine the bird's sex. Unlike surgical sexing, DNA sexing can be accurately done on baby birds. Another advantage is that your pet will not have to leave the comfort of his environment--and that's less stress for both you and your feathered friend!
DNA sexing services are currently offered by a number of laboratories worldwide. First on the scene was Zoogen Services located in Davis, CA. Zoogen was founded in 1990, and to date has accurately sexed over 330,000 birds. In the beginning, the analysis process was somewhat cumbersome, taking about a week to complete.
parrot dna
In my Biology II class, I ran DNA isolations on calf liver. Additives such as .09- solution of Sodium Chloride (salt water) are used to liberate proteins and to remove undissassociated nucleoproteins (proteins associated with the nucleus where the DNA is found). I added Sodium Dodecylsufate (SDS) which acts as a biological detergent to cut through oil and to dissolve the membrane surrounding the nucleus so the DNA could be retrieved.
At Zoogen, solutions are added to the sample. They are shaken and centrifuged to separate the solution into several layers. Heavier particles go to the bottom and lighter particles rise to the surface. The DNA can be removed at this point and is a very thick, sticky small mass. This step could take about a day to complete. More isolation procedures are run to further dissolve the DNA which could take another 10 hours.
The isolated DNA is next dissolved in another solution containing enzymes called restriction enzymes. In nature, these enzymes protect against intruding DNA. They work to cut up foreign DNA restricting it from surviving in your own cells. These enzymes recognize short nucleotide (an organic unit consisting of a sugar molecule bonded to a nitrogen base and a phosphate group - - nucleotides are the building blocks of nucleic acids) sequences in DNA molecules and cut them at specific points within the so-called recognition sequences. These pieces of DNA are called restriction fragments. The differences in homologous DNA sequences that result in restriction fragment lengths have been dubbed restriction fragment length polymorphisms or RFLPs (pronounced riflips). This procedure is used by thousands of labs over the last ten years to examine DNA. It is a well-known tool of gene analysis and is not experimental. Correctly done, DNA doesn't lie. I guess you can tell I watched a lot of the Simpson Trial.
The DNA fragments are then placed near one end of a bed of gel that has an electric current running through it. The DNA is negatively charged and moves to the positive end of the gel. Smaller fragments move faster than large ones. After about 18 hours, the fragments are arranged by length. This procedure is called electrophoresis. When the DNA has been run out (separated by length sizes) the gel is exposed to UV light. At this point, the DNA can actually be seen (it glows because of the chemicals added to it). The DNA (a double strand-stranded helical giant molecule - it looks like a twisted ladder) can be "unzipped" or split into two complementary strands. These splits are transferred to a nylon membrane. The nylon membrane is immersed in a bath and a radioactive probe. The probe is actually a stretch of DNA of a known sequence. The species (breed) of the bird is necessary so they can use the correct probe in identifying the sex of the bird. If you do not put the correct species on, the test could be delayed or perhaps be incorrect. The technicians can usually tell if you reported the wrong species, because they can recognize most species' patterns. After having run over 90,000 samples, they have a lot of experience reading these results. The probe seeks out the complimentary strands of DNA and bonds to it. They know what the probe is and the places to which it will bond. Those places are associated with pieces of DNA on the bird's sex chromosomes. The last step is to expose x-ray film to the nylon membrane containing the radioactive probe. Dark bands develop at the probe sites. The resulting X-ray is a pattern which can be interpreted by technicians. The pattern of these bands reveal the sex of your bird. Many animals, including humans, have a pair of sex chromosomes, designated X and Y, that determine an individuals sex. In humans, individuals with XY chromosomes are male and XX chromosomes are female.
The sex of a human baby is determined by the father whether they get an X or a Y. In contrast to this system, birds have sex chromosomes designated Z and W. Males have ZZ and females are ZW. These are the chromosomes used in the DNA sequence probe to determine the sex of a bird. In birds, the female determines the sex of her offspring whether they get Z or W chromosomes. Isn't science wonderful? Now you know how DNA sex determination works. I think you really get a lot of technology for your money.