In the classical understanding, as in "Jurassic Park," humanity is unlikely to ever resurrect dinosaurs. The main and, seemingly, insurmountable problem is the complete degradation of DNA. The DNA molecule has a half-life of about 521 years, and even in ideal storage conditions, it becomes completely unreadable about 1.5 million years later. Dinosaurs, however, went extinct 66 million years ago, so all their genetic material has long since turned into a useless mixture of chemical compounds. The soft tissue remnants or collagen fragments discovered by scientists today are nothing more than fossilized shadows of past life, lacking genetic code.

But even if we imagine the impossible and assume that the complete genome of a dinosaur could be synthesized artificially, we would encounter problems of a different order. The development of an embryo requires not only genes but also complex epigenetic regulation — instructions on when and how these genes should be activated during the growth process, and this information has been lost along with the DNA. Moreover, there is no suitable surrogate mother and egg: the closest living relatives of dinosaurs, birds, have eggs with a completely different internal structure. The immune system of the newly born creature would be completely defenseless against modern bacteria and viruses that have evolved for tens of millions of years.

However, there is a more realistic and already being developed path that leads not to resurrection but to the creation of a kind of chimera. The famous paleontologist Jack Horner and a group of other scientists are promoting the idea of a "chicken-dinosaur," or Chickensaurus. They are not trying to find ancient DNA but are going in the opposite direction: ancient genes that are responsible for the traits of ancestors are sleeping in the genome of modern birds, direct descendants of dinosaurs. With the help of genetic editing, these atavistic programs can be awakened. In laboratory experiments on chicken embryos, it has already been possible to grow tooth buds instead of beak parts, form a face resembling that of a Velociraptor, and even detect mechanisms that will allow growing a long tail instead of a reduced bird tail in the future. The appearance of the first creature with a full set of dinosaur-like external features, according to the predictions of the researchers themselves, is a prospect within the next 20–50 years. But this will not be a resurrected Velociraptor, but a deeply modified chicken, a bird with activated traits of a distant ancestor.

The real resurrection is happening in another direction — with recently extinct species whose cells and DNA have been preserved. The first and only successful attempt so far was the birth of a cloned Pyrenean ibex from frozen cells in 2003, although the animal lived for only a few minutes. Today, the biotechnology company Colossal Biosciences is working on bringing back the woolly mammoth and the thylacinus, or Tasmanian tiger. Their goal is not an ideal copy but a sustainable hybrid with the nearest living relative. A mammoth fantasy based on the Asian elephant is expected to be obtained by the end of this decade, and the thylacinus — in 10–15 years. These projects prove that "resurrection" of extinct animals is possible, but only under the condition of preserving sufficient genetic material, which forever closes the path to the Jurassic period and opens the way to the Chicken Park period, populated by amazing creations of flesh, feathers, and scientific imagination.

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