{"id": 775379752395812868, "lang": "en", "text": "RT @DavidBrin: New isotopic analysis supports high-energy impact for formation of Moon  https://t.co/YSGvO0phWv", "urls": [{"url": "https://t.co/YSGvO0phWv", "expanded_url": "http://phys.org/news/2016-09-chemistry-moon-proto-earth-mantle-relocated.html"}], "user": {"id": 41712825}, "id_str": "775379752395812868", "source": "<a href=\"http://twitter.com\" rel=\"nofollow\">Twitter Web Client</a>", "deleted": false, "hashtags": [], "retrieved": "2017-02-27--00-36-41", "created_at": "Mon Sep 12 17:05:13 +0000 2016", "retweet_count": 23, "user_mentions": [{"id": 192589318, "name": "David Brin", "screen_name": "DavidBrin"}], "legacy_imported": true, "retweeted_status": {"id": 775379395041034240, "lang": "en", "text": "New isotopic analysis supports high-energy impact for formation of Moon  https://t.co/YSGvO0phWv", "urls": [{"url": "https://t.co/YSGvO0phWv", "expanded_url": "http://phys.org/news/2016-09-chemistry-moon-proto-earth-mantle-relocated.html"}], "user": {"id": 192589318}, "id_str": "775379395041034240", "source": "<a href=\"http://twitter.com\" rel=\"nofollow\">Twitter Web Client</a>", "hashtags": [], "created_at": "Mon Sep 12 17:03:48 +0000 2016", "retweet_count": 23, "user_mentions": [], "favorite_count": 46}}