[姣忓懆鏂囩尞鏇存柊] 5.24-5.30
璁℃暟鍣細 Nature Genetics 脳2 锛圤sSPL14锛夛紝PCP脳1锛孭P脳1锛孋el Research脳1
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
杩欎箞鐞嗘兂鐨勭粨鏋滐紒
璧ゆ灉鏋滅殑缇℃厱ING锛
杩欐牱涔熻锛 鍟嗛噺濂界殑鍚э紒
inspiring
@pc
寰堟槑鏄惧嬀鎼笂浜嗗晩锛
鏃ユ湰鐨勯氳浣滆呰窡QQ鏄佹湅鍙嬩簡锛岀涓涓绮掓暟鐨勫熀鍥犲氨鏄粬浠悎浣滃嚭鏉ョ殑
鍏跺疄杩欎釜鍩哄洜浠婂勾1鏈堜唤鍦═AG涓婂凡缁忓彂杩囦簡锛屽張鍚峀tn
@fenglin
妤间笂锛岄槄鍘嗗箍锛
Parent-independent genotyping for constructing an
ultrahigh-density linkage map based on
population sequencing
Weibo Xiea, Qi Fengb, Huihui Yua, Xuehui Huangb, Qiang Zhaob, Yongzhong Xinga, Sibin Yua, Bin Hanb,
and Qifa Zhanga,1
@haiguang
鎴戜竴涓嶅皬蹇冿紝榛忚创閿欒锛岃妤间富娴锋兜
绔炰簤澶縺鐑堜簡锛岀▼绁濆鍜屽偍鎴愭墠閮借兘鎾炶溅锛屼竴涓墍鐨勶紝涓嶇煡鏄笉鏄繖绉嶇珵浜夋湁鐐规伓鎬ц川锛
@cc
鏋楀瓙澶т簡鍘伙紝瑕佹槸涓涓棰樼粍鐨勮兘鎾炶溅锛岃繖鎵嶆洿鎭舵悶銆傘傘俹(*锟b柦锟*)銈 锛堟垜鍟ラ兘涓嶇煡閬擄紝鍟︼綖锝烇級
@haiguang
鎴戞兂浜嗕竴浼氭墠鐚滃埌QQ鏄痲ianqian锛屽湪寰堜箙浠ュ墠鎴戜竴鐩磋鎴愨滃╁┾濓紙闊筹級锛岃璇镐汉BS鍔犲洿瑙傦紝寰浜嬩笉鍫洖棣栭笩锝烇綖
@cc
浠ゆ垜濂囨殑鏄紝鎾炶溅浜嗚繕鑳界户缁紑鈥︹
cell research灏辨槸鍥藉唴鎾炶溅鍚庣殑绱фョ淮淇珯锛岄殢渚垮紕寮勫氨鍙互鍙戜簡锛屽綋鐒跺墠鎻愭槸浣犵殑宸ヤ綔瑕佽繃寰楀幓锛屾瘮濡傛潕瀹舵磱鐨凩AZY1锛岄挶鍓嶄粬浠殑LEFY锛燂紙璁颁笉娓呬簡锛夛紝娴欏ぇ鐨勬牴鍙戣偛鐨凣NOM锛屽綋鐒跺皬鏃ユ湰涔熸湁浠栦滑鐨勭揣鎬ョ淮淇珯锛屽氨鏄疨CP銆
鍏跺疄杩欎簺閮戒笉鏄渶鐗涚殑锛寈uehongwei浠栦滑鍘诲勾鍦≒C涓婇偅绡囧嵎鍙剁殑鏂囩珷鍦≒MB涓婃棭澶у崐骞村氨鍙戜簡锛屼汉瀹舵劊鏄繕鑳芥悶涓奝C锛屼笉鏈嶄笉琛屽晩銆
妤间笂鐨勫厔寮燂紝浣犵煡閬撶殑澶浜嗐傘傘
@cc
(锟鈻斤浚)鈺 ohohoho….. 闅鹃亾杩欏氨鏄紶璇翠腑鐨勬綔瑙勫垯锛