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Snake.io combines trendy art with the oldest classic snake game mechanics.Start as a small worm and try to get bigger by eating. Worm your way through fields of food and try to beat other players' scores.How long can you survive in this snake eat snake world?

In Powerline.io, players are trying to become as large of a snake as they can. Instead of growing your snake by eating apples though, players are gaining length by destroying other snakes and eating the neon bits that they are made of. If you love the fast-paced gameplay and the reactions that are required of Snake, then you should definitely give Powerline.io a try.

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Impossible Snake 2 is kind of like if Snake became a puzzle game. In Impossible Snake 2, players must slither back and forth in an attempt to eat all of the apples on the map and get to the exit. However, it is not as simple as it sounds. You must get pasts objects and ghosts blocking your way, as well as deal with a snake that refuses to slow down.

Master the sharp turns. A good trick to have under your belt as you play snake is being able to turn on a dime. Since the snake is so speedy, crashing can happen before you can react. The more you play, try to master those sharp turns to narrowly escape hitting a wall.

Be patient. It can be tempting to grab the apples as fast as you can, but if you narrowly miss an apple, it's better to wait until your snake tail has moved away from it before going in for another pass.

Hug the wall. As you play snake, your tail will keep growing and growing with every apple you eat. An easy trick to avoid crashing into the walls or your tail is to trace the perimeter of the screen. This keeps the rest of the field open and easy to navigate.

Master the sharp turns: A good trick to have under your belt as you play snake is being able to turn on a dime. Since the snake is so speedy, crashing can happen before you can react. The more you play, try to master those sharp turns to narrowly escape hitting a wall.

Be patient: It can be tempting to grab the apples as fast as you can, but if you narrowly miss an apple, it's better to wait until your snake tail has moved away from it before going in for another pass.

Hug the wall: As you play snake, your tail will keep growing and growing with every apple you eat. An easy trick to avoid crashing into the walls or your tail is to trace the perimeter of the screen. This keeps the rest of the field open and easy to navigate.

Most species of snake are nonvenomous and those that have venom use it primarily to kill and subdue prey rather than for self-defense. Some possess venom that is potent enough to cause painful injury or death to humans. Nonvenomous snakes either swallow prey alive or kill by constriction.

The fossil record of snakes is relatively poor because snake skeletons are typically small and fragile making fossilization uncommon. Fossils readily identifiable as snakes (though often retaining hind limbs) first appear in the fossil record during the Cretaceous period.[15] The earliest known true snake fossils (members of the crown group Serpentes) come from the marine simoliophiids, the oldest of which is the Late Cretaceous (Cenomanian age) Haasiophis terrasanctus from the West Bank,[1] dated to between 112 and 94 million years old.[16]

Many modern snake groups originated during the Paleocene, alongside the adaptive radiation of mammals following the extinction of (non-avian) dinosaurs. The expansion of grasslands in North America also led to an explosive radiation among snakes.[20] Previously, snakes were a minor component of the North American fauna, but during the Miocene, the number of species and their prevalence increased dramatically with the first appearances of vipers and elapids in North America and the significant diversification of Colubridae (including the origin of many modern genera such as Nerodia, Lampropeltis, Pituophis, and Pantherophis).[20]

There is fossil evidence to suggest that snakes may have evolved from burrowing lizards,[21] during the Cretaceous Period.[22] An early fossil snake relative, Najash rionegrina, was a two-legged burrowing animal with a sacrum, and was fully terrestrial.[23] One extant analog of these putative ancestors is the earless monitor Lanthanotus of Borneo (though it also is semiaquatic).[24] Subterranean species evolved bodies streamlined for burrowing, and eventually lost their limbs.[24] According to this hypothesis, features such as the transparent, fused eyelids (brille) and loss of external ears evolved to cope with fossorial difficulties, such as scratched corneas and dirt in the ears.[22][24] Some primitive snakes are known to have possessed hindlimbs, but their pelvic bones lacked a direct connection to the vertebrae. These include fossil species like Haasiophis, Pachyrhachis and Eupodophis, which are slightly older than Najash.[19]

This hypothesis was strengthened in 2015 by the discovery of a 113-million-year-old fossil of a four-legged snake in Brazil that has been named Tetrapodophis amplectus. It has many snake-like features, is adapted for burrowing and its stomach indicates that it was preying on other animals.[25] It is currently uncertain if Tetrapodophis is a snake or another species, in the squamate order, as a snake-like body has independently evolved at least 26 times. Tetrapodophis does not have distinctive snake features in its spine and skull.[26][27] A study in 2021 places the animal in a group of extinct marine lizards from the Cretaceous period known as dolichosaurs and not directly related to snakes.[28]

Both fossils and phylogenetic studies demonstrate that snakes evolved from lizards, hence the question became which genetic changes led to limb loss in the snake ancestor. Limb loss is actually very common in extant reptiles and has happened dozens of times within skinks, anguids, and other lizards.[31]

In 2016, two studies reported that limb loss in snakes is associated with DNA mutations in the Zone of Polarizing Activity Regulatory Sequence (ZRS), a regulatory region of the sonic hedgehog gene which is critically required for limb development. More advanced snakes have no remnants of limbs, but basal snakes such as pythons and boas do have traces of highly reduced, vestigial hind limbs. Python embryos even have fully developed hind limb buds, but their later development is stopped by the DNA mutations in the ZRS.[32][33][34][35]

The two infraorders of Serpentes are Alethinophidia and Scolecophidia.[39] This separation is based on morphological characteristics and mitochondrial DNA sequence similarity. Alethinophidia is sometimes split into Henophidia and Caenophidia, with the latter consisting of "colubroid" snakes (colubrids, vipers, elapids, hydrophiids, and atractaspids) and acrochordids, while the other alethinophidian families comprise Henophidia.[40] While not extant today, the Madtsoiidae, a family of giant, primitive, python-like snakes, was around until 50,000 years ago in Australia, represented by genera such as Wonambi. e24fc04721