鍓嶈█

杩戜簺骞滁/span>鏋滆潎鐨勫皬鍒嗗瓙鍠傚吇璇曢獙鍙樺緱瓒婃潵瓒婃櫘閬嶃€傚師鍥犱箣涓€鏄汉绫诲拰鏋滆潎涔嬮棿鏈夊ぇ閲忎笌鐤剧梾鐩稿叧鐨勫熀鍥犮€傚彟涓€涓師鍥犳槸鍙互蹇€熸娴嬭嵂鐗╁鍔ㄧ墿鐨勫奖鍝嶃€侟/span>FLIC绯荤粺鎻愪緵鏋滆潎涓庨鐗╃浉浜掍綔鐢ㄧ殑璁℃暟鍜屾寔缁椂闂寸殑绮剧‘杩炵画瀹氶噺銆傚畠琛ュ厖浜嗕紶缁熺殑鍒嗘瀽鏂规硶锛屽CAFE娴嬪畾鍜岀ず韪墏鏌撴枡鏂规硶锛屽厑璁稿寰鐨凕/span>鍠傚吇琛屼负鏂归潰杩涜鍏ㄩ潰鐨勯暱鏈熺爺绌躲€傛灉铦囨槸鍒嗘瀽澶嶆潅琛屼负锛堝鍙朁/span>椋燂級鐨勭缁忔満鍒剁殑*寮哄ぇ鐨勬ā鍨嬬郴缁熶箣涓€锛屼娇鐮旂┒浜哄憳鑳藉鍒╃敤閬椾紶鍜岃嵂鐞嗗鏂规硶鐮旂┒鍠傚吇鍋忓ソ鍜岃涓虹殑鏈哄埗銆傚椋熺墿鎽勫叆閲忕殑璇︾粏鍒嗘瀽鏈夊姪浜庡湪琛拌€併€佹柊闄堜唬璋㈠拰绁炵粡鐢熺墿瀛︾瓑涓嶅悓棰嗗煙杩涜鍒涙柊鍨嬬瀛︽帰绱↑/span>銆侟/span>

搴旂敤棰嗗煙

l 鏋滆潎鐨勫彇椋熺瓑琛屼负涓庤兘閲忔秷鑰椼€侀仐浼犲绛夌爺绌迭/span>

l 鍒╃敤鏋滆潎杩涜鍚勭鐢熺悊鍜岃嵂鐞嗙爺绌讹紝鐗瑰埆鏄皬鍒嗗瓙鏁堝簲绛夌爺绌迭/span>

l 浠ユ灉铦囦负妯″瀷鐨勮涓恒€佽惀鍏诲銆佺缁忕瀛︺€佽“鑰佷笌瀵垮懡銆佽兘閲忎唬璋㈢瓑鐮旂┒

鎶€鏈壒鐐更/span>

l 鑷姩瀹炴椂鐩戞帶鍙栭鎴栭鐗╅€夋嫨琛屼负

l 瀹屾暣鐨勪究鎼哄紡绯荤粺锛屾柟渚挎斁鍦ㄥ煿鍏荤鍐呮搷浣淈/span>

l 瑙︽懜灞忎富鎺у埗鍗曞厓鎻愪緵蹇€熺殑灞忓箷璁剧疆

l 楂樼伒鏁忓害鎹曟崏鏋滆潎鍜岄鐗╀箣闂寸殑鍑犱箮姣忎竴娆＄浉浜掍綔鐢?/span>

l 灞忓箷鍙嬪ソ鍨嬮珮閫氶噺娴嬮噺

l 鑳藉鍖哄垎鍝佸皾鍜屽彇椋熸椿鍔?/span>

l 瀹氶噺娴嬮噺椋熺墿鍋忓ソ鎬э紝涓嶅彈瀹為獙鑰呯殑璇樊褰卞搷

l 涓庢瘺缁嗙鍠傚吇妫€娴嬩笉鍚岋紝浠庢椿鍔ㄥ鐨勫钩鏉夸笂寰堝鏄撹幏寰楅鐗?/span>

l 娌℃湁瀹為獙鑰呯殑骞叉壈锛岄鐗╂坊鍔犱笉骞叉壈鏋滆潎琛屼负

鎶€鏈寚鏍嘃/span>

1. 鏄剧ず绔彛鍙傛暟锛欬/span>

a) 800 x 480 RGB LCD鏄剧ず灞廃/span>

b) 24 浣嶅僵鑹秉/span>

c) 10-point 澶氱偣瑙︽懜灞廃/span>

d) I2C鎬荤嚎鎺ュ彛PWM 鑳屽厜鎺у埗鍜岀數婧愭帶鍒迭/span>

e) 鑳屽厜瀵垮懡: 20000 灏忔椂

f) 宸ヤ綔娓╁害: -20 to +70 鎽勬皬搴?/span>

g) 鍌ㄥ瓨娓╁害: -30 to +80 鎽勬皬搴?/span>

h) 瀵规瘮搴? 500

i) 骞冲潎浜害: 250 cd/m2

j) 澶栧舰灏哄: 192.96 × 110.76姣背

k) 鍙闈㈢Н: 154.08 × 85.92姣背

2. 閲囨牱鐜囷細5Hz

3. 鎺ュ彛瀹归噺锛?涓 MCU-2涓绘満鍙帴1鑷?0涓 DFM 鍙栭鐩戞祴鍣?/span>

4. 閫氫俊锛歁CU浣跨敤Flidea 鍒朵綔鐨勮嚜瀹氫箟椹卞姩绋嬪簭閫氳繃 USB涓嶱C杞欢閫氫俊

5. FLIC杞欢锛欶lidea涓撶敤杞欢

6. 鍙€夋俯搴︺€佹箍搴﹀拰鍏夊己浼犳劅鍣 (FLIC-TEMP):

a) 鐩稿婀垮害:鑼冨洿0-80% RH锛岀簿搴?#177; 2% RH

b) 娓╁害:鑼冨洿鈥?0 to 85 °C锛岀簿搴?#177;0.4 °C

c) 鍏夊己:婊″埢搴﹀€ > 500娴佹槑

7. DFM灏哄澶у皬锛?64 x 130 x 50姣背

8. 鐢垫簮锛歁CU 閫氳繃 15VDC 鐢垫簮渚涚數锛岀郴缁烡FM 閫氳繃 TRRS 鐢电紗渚涚數

9. 璁＄畻鏈鸿姹傦細濡傛灉浣跨敤 Windows 7 鎿嶄綔绯荤粺锛屽垯浣跨敤 USB 2.0 绔彛锛涘鏋滀娇鐢 Windows 8.x鎴?0锛屽垯浣跨敤 USB 2.0鎴朥SB 3.0锛涙敮鎸佺殑鎿嶄綔绯荤粺Windows 7銆?.x銆?0

鍏稿瀷搴旂敤

FLIC: High-Throughput锛 Continuous Analysis of Feeding Behaviors in Drosophila锛孯o J锛 Harvanek ZM锛 Pletcher SD. PLoS ONE锛?014锛 9(6): e101107. doi:10.

涓婂乏鍥句负鍙栭鍗曞厓姝ｉ潰鍥近/span>锛屽彸涓婂浘FLIC绯荤粺妯℃嫙淇″彿鏄剧ず浜嗗杺椋燂紙绾㈣壊鏇茬嚎宸︼級鍜屽搧灏濓紙绾㈣壊鏇茬嚎鍙筹級鐨勬槑鏄捐涓虹壒寰併€侟/span>

鑷姩瀹炴椂鏁版嵁鏀堕泦鏉ヨ嚜涓€鍙?/span>鏋淈/span>铦嘃/span>鍦ㄥ弻椋熺墿鍙栭鍗曞厓鐨勪唬琛ㄦ€т俊鍙饵/span>锛堜笂鍥惧乏锛夈€侟/span>闅忕潃瀹為獙鐨勮繘琛岋紝FLIC绯荤粺瀹炴椂鐩戞帶鍙互鎹曡幏鑻嶈潎鍦ㄩ鐗╁亸濂戒笂鐨勭粏寰彉鍖栵紝濡傚亸濂芥寚鏁帮紙PI锛堻/span>銆侟/span>

涓€椤规病鏈夊疄楠岃€呭共鎵扮殑澶氭棩鍠傞瀹為獙**鎻ず浜咟/span>鍙朁/span>椋熻涓轰腑鐨勬樇澶滆妭寰婞/span>銆侟/span>

闄勬灉铦囦笓鐢ㄨ兘閲忎唬璋㈢洃娴嬫妧鏈渚婞/span>

鏉ヨ嚜缇庡浗璐濆嫆鍖诲闄紙Baylor College of Medicine锛堻/span>Huffington鑰佸勾鐮旂┒涓績锛圏/span>Huffington C enter on Aging锛夛紝鏂板ⅷ瑗垮摜宸炵珛澶у锛圏/span>New Mexico State University锛夛紝浠ュ強浼戞柉椤垮ぇ瀛︾敓鐗╁寲瀛︾郴鐨勭爺绌朵汉鍛樺湪鏋滆潎鐨勭爺绌朵腑鍙戠幇椋熺墿鐨勫梾瑙夌壒寰佹槸璋冭妭鐢熷懡闀垮害鐨勪竴涓叧閿洜绱狅紝鑰屼笖鍡呰鍙椾綋Or83b绐佸彉鍙嶈€屾姉閫嗚兘鍔涘寮猴紝瀵垮懡澧炲姞銆傝繖涓€鐮旂┒灏嗗姩鐗╁梾瑙変笌瀵垮懡鑱旂郴浜嗚捣鏉ワ紝涓虹敓鍛藉懆鏈熺爺绌舵彁鍑轰簡涓€涓柊鐨勬€濊矾銆傝繖涓€鐮旂┒鎴愭灉鍏竷銆夵/span>Science銆嬫潅蹇椾笂锛屼竴缁忓叕甯冨氨寮曡捣浜嗗悇澶у獟浣撶殑鍏虫敞銆侟/span>

涓婂浘涓哄垎瀛愮敓鐗╁瀹迭/span>Wayne Van Voorhies鍥㈤槦鍙戣〃鐨凕/span>Science鏉傚織鏋滆潎鍙栭鐩稿叧鐨勮鏂囷紝浠ュ強杩炴帴鏋滆潎鑳介噺浠ｈ阿绯荤粺鐨勫懠鍚稿锛屽拰浣跨敤鐨凕/span>SSI鏋滆潎鑳介噺浠ｈ阿娴嬮噺绯荤粺銆侟/span>

鍖椾含鏄撶娉扮敓鎬佹妧鏈湁闄愬叕鍙镐綔涓裹/span>FLIC楂橀€氶噺鏋滆潎鍙栭琛屼负涓庤兘閲忎唬璋㈢洃娴嬫妧鏈腑鍥?*鎶€鏈敮鎸佹湇鍔′腑蹇冿紝涓撲笟鎻愪緵浠ユ灉铦囦负妯″紡鍔ㄧ墿鐨勭敓鍛藉仴搴风爺绌舵妧鏈柟妗堛€傝缁嗗挩璇㈣嚧鐢袋/span>010-82611269/1572銆侟/span>

浜у湴

缇庡浗

鍙傝€冭祫鏂欙紙浠呭垪鍑洪儴鍒嗕唬琛ㄦ€ф枃鐚級

3. May C E锛 Vaziri A锛 Lin Y Q锛 et al. High dietary sugar reshapes sweet taste to promote feeding behavior in Drosophila melanogaster[J]. Cell reports锛 2019锛 27(6): 1675-1685. e7.

4. Ro J锛 Harvanek Z M锛 Pletcher S D. FLIC: high-throughput锛 continuous analysis of feeding behaviors in Drosophila[J]. PloS one锛 2014锛 9(6).

5. Yu Y锛 Huang R锛 Ye J锛 et al. Regulation of starvation-induced hyperactivity by insulin and glucagon signaling in adult Drosophila[J]. Elife锛 2016锛 5: e15693.

6. Zhang Q. Characterization of Circadian Feeding Rhythms in Drosophila Using the Fly Liquid-Food Interaction Counter (FLIC) Assay[D]. 锛 2016.