New evidence has emerged that puts a dent into the reputation of the famous \"first bird\" -- Archaeopteryx, a feathered descendant of the dinosaurs, which lived around 150 million years ago. Three-dimensional scans of skulls of early birds and dinosaurs suggests that at least a few species of dinos that were contemporaries of Archaeopteryx had brains with the likely neurological wiring for flight, according to a paper published on Wednesday. \"Archaeopteryx has always been set up as a uniquely transitional species between feathered dinosaurs and modern birds, a halfway point,\" said Amy Balanoff of the American Museum of Natural History. \"But by studying the cranial volume of closely-related dinosaurs, we learned that Archaeopteryx might not have been so special.\" Writing in the journal Nature, Balanoff\'s team used computed tomographic (CT) scans to get a high-resolution image of brain size and regions in a dozen existing and extinct species. Compared to reptiles, birds have large brains in relation to their body size -- a phenomenon called \"hyperinflation\" which provides them with the superior vision and coordination needed to flight. But the comparison turned up some bad news for Archaeopteryx. Several other non-avian dinos that were sampled, including the feathery oviraptosaur and bird-like troodontid, had in fact larger brains relative to body size than Archaeopteryx did. \"If Archaeopteryx had a flight-ready brain, which is almost certainly the case given its morphology, then so did at least some other non-avian dinosaurs,\" said Balanoff. The finding adds to evidence that the gene pool that led to the first birds was far wider than thought. Just a few years ago, biologists had a list of supposedly exclusive characteristics for birds, such as feathers and wishbones. But these have been found to exist among non-avian dinosaurs, and now hyperinflated brains can be added to the list.