浼间箮杩樻病鏈夌牬瑙g増鈥︹ 鈺(鈺-鈺)鈺紝涓嶈繃鍙互璇曡瘯杩欏効鐨刲icense鈥︹
(鎽樿嚜绉戝缃) 鏂板姛鑳戒粙缁嶏細
1. 鍙互灏嗗瓨鏀句簬涓汉鐢佃剳涓殑pdf鏂囦欢鎴栬呮枃浠跺す鍐呯殑pdf鐩存帴瀵煎叆鍒 endnote涓紝骞朵粠涓彁鍙栨枃鐚殑棰樺綍淇℃伅銆(寰堣禐锛)
2. 褰撳墠寰堝缃戠粶鍙戣〃鐨勭數瀛愭枃绔犲湪鏂囦腑寮曠敤澶勫拰鏂囧悗瀵瑰簲鐨勫弬鑰冩枃鐚仛浜嗛摼鎺ワ紝鏂扮増鏈疄鐜颁簡杩欎釜閾炬帴鍔熻兘銆
3.聽 Endnote web鐗堢殑鏈鏂板姛鑳藉彲浠ュ湪IE鎴栬匜irefox娴忚鍣ㄤ腑浜х敓鎻掍欢锛屽彲浠ョ洿鎺ユ姄鍙栫綉椤典腑鐨勬枃鐚俊鎭紝瀵煎叆endnote涓
4. 鏂扮増 鏈湪endnote鐨勭晫闈㈡坊鍔犱簡蹇熺紪杈戔淨uick Edit tab鈥濈殑鍔熻兘锛屼笉蹇呮墦寮鏂囩尞灏卞彲浠ュ疄鐜版枃鐚殑蹇熺紪杈戙
5. 鏂扮増鏈湪endnote宓屽叆鍒皐ord鐨勬彃浠朵腑锛屽姞寮轰簡寮曠敤缂栬緫鐨勫姛鑳姐
6. 鏂扮増鏈彲浠ュ湪鍙傝冩枃鐚殑澶氫綔鑰呭紩鐢ㄤ腑閲囩敤鐪佺暐鍙疯〃绀恒
7. 鏂扮増鏈姞寮轰簡style涓殑footnote涓у寲缂栬緫銆
8. 鍙互閫氳繃缁勫悎group鏂囩尞锛屽舰鎴愪竴涓柊鐨刧roup銆
]]>1. PP
DTH8 suppresses flowering in rice, influencing plant height and yield potential simultaneously [鏂嘳
DTH8鎶戝埗姘寸ɑ寮鑺憋紝鍚屾椂褰卞搷鏍珮鍜屼骇閲忔綔鍔涖傚笀鍏勪綘濂姐
2. TAG
Evaluation of seed storage-protein gene 5′ untranslated regions in enhancing gene expression in transgenic rice seed. [鏂嘳
姘寸ɑ绉嶅瓙鍌ㄥ瓨铔嬬櫧5鈥橀潪缈昏瘧鍖虹殑澧炲己琛ㄨ揪浣滅敤銆
3. Plant Cell Environ
Functional characterization of the SIZ/PIAS-type SUMO E3 ligases, OsSIZ1 and OsSIZ2 in rice. [鏂囨殏缂篯
姘寸ɑ涓や釜E3杩炴帴閰剁殑鐮旂┒銆
4. Planta
Functional analysis of six drought-inducible promoters in transgenic rice plants throughout all stages of plant growth. [鏂嘳
鍏釜鐩稿簲骞叉棻鐨勫惎鍔ㄥ瓙鐨勫垎鏋愩
Expression of ethylene response factor JERF1 in rice improves tolerance to drought. [鏂嘳
琛ㄨ揪涔欑儻鐩稿簲瀛愭彁楂樻姉鏃便
5. Plant Cell
RAV-Like1 Maintains Brassinosteroid Homeostasis via the Coordinated Activation of BRI1 and Biosynthetic Genes in Rice [鏂嘳
RAVL1鍩哄洜閫氳繃婵娲籅RI1鍜屽叾浠栧悎鎴愬熀鍥犵ǔ瀹氫綋鍐呮补鑿滅礌鍐呴叝骞宠 銆
6. J Plant Physiol
The ABRE-binding bZIP transcription factor OsABF2 is a positive regulator of abiotic stress and ABA signaling in rice. [鏂嘳
涓涓潪鐢熺墿鑳佽揩鍜孉BA淇″彿鐩稿叧鐨刡ZIP杞綍鍥犲瓙銆
7. BMC Plant Biol.
The mitochondrial gene orfH79 plays a critical role in impairing both male gametophyte development and root growth in CMS-Honglian rice. [鏂嘳
绾㈣幉鍨婥MS涓嚎绮掍綋鍩哄洜 orfH79鐨勪綔鐢ㄣ
]]>1. Nature Genetics
A pair of floral regulators sets critical day length for Hd3a florigen expression in rice [鏂嘳
Hd3a鐨勮〃杈炬ā寮忔満鐞嗐傚ソ濂界湅鐪嬩负鍟ュ彲浠ュ彂NG
2. PCP
FINE CULM1 (FC1) Works Downstream of Strigolactones to Inhibit the Outgrowth of Axillary Buds in Rice. [鏂嘳
FC1浣滅敤浜庣嫭鑴氶噾鍐呴叝涓嬫父锛屾姂鍒朵簡姘寸ɑ鑵嬭娊鐢熼暱銆
***娉細PCP鏈杩戞湁杩樻湁涓ょ瘒鐙剼閲戝唴閰殑鏂囩珷锛屼笁绡囨枃绔犲熀鏈兘鏄悓涓鎵逛汉鍋氱殑
(鎴戜互鍓嶇炕璇戦敊浜嗭紝鎶辨瓑锛屽婵绱犱笉澶簡瑙)锛
缂虹7鏉′欢涓嬬嫭鑴氶噾鍐呴叝鎶戝埗鍒嗚槚锛璐熻皟鎺у姘寸ɑ绉嶅瓙鑳氳酱浼搁暱
3. Planta
Golden Rice涓繃閲忚〃杈剧被鑳¤悵鍗滅礌瑁傝В鍙屽姞姘ч叾锛屾樉绀篴pocarotenoid鏄噾绫冲舰鎴愬簳鐗┿
4. BMC Evol Biol
Genomic patterns of nucleotide diversity in divergent populations of U.S. weedy rice [鏂嘳
缇庡浗鏉傝崏绋绘牳鑻烽吀澶氭佹х殑鍩哄洜缁勬ā寮忋
]]>浠ヤ笅鎽樿嚜锛http://cbb.upc.edu.cn/showart.asp?art_id=84&cat_id=4
2000 骞10鏈堬紝鐢熺墿鍖诲绉戝瀹跺搱缃楀痉路鐡﹀皵缂柉銆佸笗鍏嬄峰竷鏈楀拰杩堝厠灏斅疯壘妫垱绔嬩簡绉戝鍏叡鍥句功棣嗭紙The Public Library of Science锛孭LoS锛夈傝鍥句功棣嗕负闈炶耽鍒╂満鏋勶紝鑷村姏浜庤涓栫晫涓婄殑绉戝鍜屽尰瀛︽枃鐚垚涓哄彲鍏嶈垂璇诲彇鐨勫叕鍏辫储浜с侾LoS鎴愮珛鍚庣殑绗竴浠跺伐浣滄槸璧疯崏涓灏佸叕寮淇★紝榧撳姳绉戝鍑虹増鍟嗚鐮旂┒鏂囩尞鎴愪负缃戜笂鍏嶈垂鑾峰彇璧勬枡锛屾潵鑷180涓浗瀹剁殑杩3.4涓囧鍚嶇瀛﹀鍦ㄤ俊涓婄鍚嶆敮鎸侊紝浣嗗嚭鐗堝晢鍙嶅簲鍐锋贰銆傚湪寰楀埌鏉ヨ嚜Gordon and Betty Moore 鍩洪噾浼900涓囩編鍏冪殑鎹愬姪鍚庯紝PLoS鍦2003骞10鏈堝垱鍔炰簡绗竴浠藉湪绾垮厤璐归槄璇绘湡鍒奝LoS Biology锛屼箣鍚庡厛鍚庡垱鍔炰簡銆奝LoS鍖诲銆嬨併奝LoS璁$畻鐢熺墿瀛︺嬨併奝LoS閬椾紶瀛︺嬨併奝LoS鐥呭師浣撳銆嬪拰銆奝LoS涓村簥璇曢獙銆嬨2006骞12鏈堬紝PLoS鍒涘姙鏈鏂版湡鍒奝LoS One銆偮犅犅犅犅犅 聽
浠樿垂鍙戣〃銆佸厤璐归槄璇伙紙Open Access锛変唬琛ㄤ簡鏈潵鐨勪竴绉嶅湪绾垮嚭鐗堟ā寮忥紝PLoS鏄繖绉嶅嚭鐗堟ā寮忔渶绉瀬鐨勫厛椹便鎹柊鍑虹増鐨勩婅嚜鐒躲嬫潅蹇楁姤閬擄紝鍦ㄥ嚭鐗堜簡5浠藉湪绾垮厤璐规湡鍒婂悗锛2006骞12鏈20鏃ワ紝PLoS鍙堝垱寤轰簡涓浠藉悕涓篜LoS One鐨勫湪绾挎湡鍒婏紝浠ユ縺鐑堢殑濮挎佹寫鎴樼洰鍓嶅鏈晫杩蜂俊鏈熷垔澹版湜鍜屽奖鍝嶅洜瀛愮殑鐜扮姸銆侾LoS One鏈変竴鏀敱200浣嶇爺绌朵汉鍛樼粍鎴愮殑缂栬緫濮斿憳浼氾紝姣忕瘒璁烘枃鑷冲皯鎺ュ彈1浣嶇紪濮斾細鎴愬憳鐨勮瘎瀹°浣嗕笌缁濆ぇ澶氭暟鏈熷垔涓嶅悓鐨勬槸锛孭LoS One鍙戣〃浠讳綍鏂规硶涓婂彲琛岀殑璁烘枃锛岃屼笉鍦ㄤ箮鐮旂┒缁撴灉鐨勯噸瑕佹э紝瀹$ǹ浜哄彧鏍告煡璁烘枃涓殑瀹為獙鏂规硶鍜屽垎鏋愭槸鍚︽湁鏄庢樉銆佷弗閲嶇殑閿欒銆侾LoS One璁や负璁烘枃鐨勯噸瑕佹т綋鐜板湪鍙戣〃鍚庤鍏虫敞鍜屽紩鐢ㄧ殑鎯呭喌銆傝鑰呭彲浠ュ湪缃戜笂瀵筆LoS One鐨勬瘡绡囪鏂囪繘琛岃瘎璁哄拰璇勫垎锛岀紪杈戞牴鎹繖浜涘弽棣堟儏鍐甸壌鍒苟鎺ㄨ崘鍑洪噸瑕佽鏂囥侾LoS One鐨勪竴浣嶇紪杈戣锛氣滄垜浠姫鍔涜鏈熷垔鐨勮鏂囨垚涓鸿璁虹殑璧风偣鑰屼笉鏄粓鐐广傗
PLoS锛圥ublic Library of Science锛夋槸涓瀹剁敱浼楀璇鸿礉灏斿寰椾富鍜屾厛鍠勬満鏋勬敮鎸佺殑闈炶耽鍒╂у鏈粍缁囷紝鏃ㄥ湪鎺ㄥ箍涓栫晫鍚勫湴鐨勭瀛﹀拰鍖诲棰嗗煙鐨勬渶鏂扮爺绌舵垚鏋滐紝浣垮叾鎴愪负涓绉嶅叕浼楄祫婧愶紝璇昏呭彲浠ラ氳繃涓嶅彈闄愬埗鐨勫钩鍙版潵浜嗚В鏈鏂扮殑绉戠爺鍔ㄦ併傝縿浠婁负姝紝PLoS宸茬粡鍑虹増浜8绉嶇敓鍛界瀛︿笌鍖诲棰嗗煙鐨勬湡鍒婏紝鍏朵腑褰卞搷鍥犲瓙鏈楂樼殑(绗竴娆℃湁褰卞搷鍥犲瓙)涓篜LoS Biology锛堝奖鍝嶅洜瀛愪负14.1锛夊拰 PLoS Medicine (褰卞搷鍥犲瓙涓13.8)銆
—————-浼橀泤婊村垎鐣岀嚎—————-
浼间箮PloS One 杩欐牱妯″紡鐨勫垔鐗╀笉鍙楀緟瑙併傚弬瑙杩欏効鍏充簬鍏舵姇绋跨殑璁ㄨ锛屽弬瑙杩欏効瀵逛簬鍏跺奖鍝嶅洜瀛愮殑棰勬祴銆傝繕鏈夊緢澶氭枼璐e畠涓鸿鏂囧瀮鍦炬《鍟婏紝鍙樼浉瑕侀挶鐨勫鏈厫璐ュ晩涔嬬被鐨勮瘎璁哄緢澶氾紝涓嶄竴涓鍒椾妇銆
鈥滀互婵鐑堢殑濮挎佹寫鎴樼洰鍓嶅鏈晫杩蜂俊鏈熷垔澹版湜鍜屽奖鍝嶅洜瀛愮殑鐜扮姸鈥濓紝杩欐牱鐨勬潅蹇楄兘鍔炲緱濂戒箞锛
]]>
1. Plant J
涓涓湡鑿岀殑鍑犱竵璐ㄨ瀵煎瓙璇卞姘寸ɑ涓煇浜涙縺閰垛︹﹀井鐢熺墿鐩稿叧鍒嗗瓙妯″紡鐨勭爺绌躲
2. PP
Development of a novel aluminum tolerance phenotyping platform used for comparisons of cereal Al tolerance and investigations into rice Al tolerance mechanisms [鏂嘳
鎶鏈ф枃绔狅紝鑰愰摑妫娴嬬殑鏂板钩鍙般
3. Trends
Genetic perspectives on crop domestication [鏂嘳
閬椾紶瑙掑害椹寲鐨勭患杩般
4. PCP
Contribution of strigolactones to the inhibition of tiller bud outgrowth under phosphate deficiency in rice [鏂嘳
缂虹7鏉′欢涓嬬嫭鑴氶噾鍐呴叝鎶戝埗鍒嗚槚銆
]]>
1. Plant Cell
Distinct Regulation of Adaxial-Abaxial Polarity in Anther Patterning in Rice. [涓嬭浇]
姘寸ɑ鑺辫嵂鐨勬瀬鎬ц皟鎺с
2. TAG
Fine mapping a QTL qCTB7 for cold tolerance at the booting stage on rice chromosome 7 using a near-isogenic line. [涓嬭浇]
杩戠瓑鍩哄洜绯瀛曠鏈熻愬喎QTL瀹氫綅銆
3. Planta
Rice fruit development is associated with an increased IAA content in pollinated ovaries [涓嬭浇]
姘寸ɑ鏋滃疄鍙戣偛涓庡瓙鎴縄AA鍚噺鍏崇郴銆
4. Trends in Plant Science
The plant N-end rule pathway: structure and functions [涓嬭浇]
妞嶇墿铔嬬櫧N绔鍒欍
When no means no: guide to Brassicaceae self-incompatibility [涓嬭浇]
鍗佸瓧鑺辩鑷氦涓嶄翰鍜屾с
What about the role of autophagy in PCD? [涓嬭浇]
缁嗚優绋嬪簭鎬ф浜′腑鐨勮嚜鍚炲櫖浣滅敤銆
Root apex transition zone: a signalling鈥搑esponse nexus in the root [涓嬭浇]
鏍瑰皷淇″彿鍙嶅簲閫斿緞銆
AUXIN BINDING PROTEIN 1: functional and evolutionary aspects [涓嬭浇]
鐢熼暱绱犵粨鍚堣泲鐧界殑缁艰堪銆
5. Curr Opin
TAL effectors: finding plant genes for disease and defense [涓嬭浇]
鍙備笌妞嶇墿闃插尽鐨凾AL绫诲洜瀛愩
Recent advances in rice blast effector research [涓嬭浇]
绋荤槦鐥呯爺绌惰繘灞曘
Host plant resistance to parasitic weeds; recent progress and bottlenecks [涓嬭浇]
瀵勪富妞嶇墿鎶楀瘎鐢熸潅鑽夌爺绌躲
6. PLOS
鍩哄洜缁勫鏍锋у拰娓楀叆鏍藉煿绋绘彮绀洪┋鍖栧拰閫夎偛瀵规按绋诲熀鍥犵粍鐨勫奖鍝嶃
]]>1. Nature Genetics
OsSPL14 promotes panicle branching and higher grain productivity in rice [鏂嘳
Regulation of OsSPL14 by OsmiR156 defines ideal plant architecture in rice [鏂嘳
涓涓惎鍔ㄥ瓙缁撳悎铔嬬櫧OsSPL14(涔熷彨IPA1)锛屼笌姘寸ɑ绌楀垎鏀瓑鈥滃畬缇庢牚鍨嬧濆缓鎴愮浉鍏筹紝鍙梞iR156璋冩帶銆
鎵╁睍闃呰锛氫粖骞1鏈堜唤TAG鍚屼釜鍩哄洜鐨勫畾浣嶆枃绔狅細http://www.ricepapers.cn/?p=885 [鎰熻阿]
2. PCP
Strigolactones negatively regulate mesocotyl elongation in rice during germination and growth in darkness [鍏ㄦ枃]
Strigolactones璐熻皟鎺у姘寸ɑ绉嶅瓙鑳氳酱浼搁暱銆Strigolactones锛鐙剼閲戝唴閰
3. PP
Involvement of silicon influx transporter OsNIP2;1 in selenite uptake in rice [鍏ㄦ枃]
OsNIP2鍙備笌纭掓憚鍙
4. Cell Research
Rice DENSE AND ERECT PANICLE 2 is essential for determining panicle outgrowth and elongation. [鍏ㄦ枃]
鐩寸珛绌2鍩哄洜锛屼笉鐭ラ亾鍜杩欑瘒鏂囩珷鏄笉鏄悓涓涓笢瑗裤
]]>
1. JEB
Putrescine differently influences the effect of salt stress on polyamine metabolism and ethylene synthesis in rice cultivars differing in salt resistance. [涓嬭浇]
鑵愯兒鈥︹﹀暐鍟ュ暐鈥︹﹀浜庢按绋昏愮洂鐨勫奖鍝嶃
Reversible association of ribulose-1, 5-bisphosphate carboxylase/oxygenase activase with the thylakoid membrane depends upon the ATP level and pH in rice without heat stress. [涓嬭浇]
鏍搁叜绯- 1,5- 浜岀7閰哥晶鍖栭叾/鍔犳哀閰鈥︹﹀暐鍟ュ暐鈥︹︿綔鐢ㄦā寮忋( >锕<銆)锝
2. TAG
QTL mapping of protein content in rice using single chromosome segment substitution lines. [涓嬭浇]
鍒╃敤鏌撹壊浣撶墖娈电疆鎹㈢郴鍒嗘瀽铔嬬櫧鍚噺QTL銆
3. Curr Opin
NB-LRR proteins: pairs, pieces, perception, partners, and pathways [涓嬭浇]
涓庢姉鐥呯浉鍏崇殑NB-LRR铔嬬櫧鐨勭患杩般
4. PP
Divinyl Chlorophyll(ide) a Can Be Converted to Monovinyl Chlorophyll(ide) a by a Divinyl Reductase in Rice [涓嬭浇]
鎬庢牱楠岃瘉A鈥擝鐨勪唬璋㈤斿緞銆備簩涔欑儻鍙剁豢绱–涔欑儻鍙剁豢绱狅紵鍖栧悎鐗╃湅涓嶆噦.exe
5. Trends
ABA perception and signalling [涓嬭浇]
ABA鐨勬劅鐭ュ拰淇″彿閫斿緞銆
6. Plant J
鐢插熀鍖栨ā寮忓拰鍩哄洜/鐫涓濈矑鐨勫叧绯汇
COE1, an LRR-RLK responsible for commissural vein pattern formation in rice.
璺熷彾鑴夊舰鎴愭湁鍏崇殑COE1銆
]]>1. Nature Biotechnology 28, 390 – 391 (2010)锛
Chinese green light for GM rice and maize prompts outcry [鍏ㄦ枃]
2. Nature News Published online 13 May 2010锛
GM crop use makes minor pests major problem
3. 鎰熻阿Sobeit锛岀浉鍏崇殑Science鐨勪袱涓姤閬擄細
Mirid Bug Outbreaks in Multiple Crops Correlated with Wide-Scale Adoption of Bt Cotton in China
Suppression of Cotton Bollworm in Multiple Crops in China in Areas with Bt Toxin鈥揅ontaining Cotton
杩樻湁涓绡囦笁鏈堜唤鐨Science鏂伴椈锛
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