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

Overexpression of the rice carotenoid cleavage dioxygenase 1 gene in Golden Rice endosperm suggests apocarotenoids as substrates in 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��

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

Genomic Diversity and Introgression in O. sativa Reveal the Impact of Domestication and Breeding on the Rice Genome.

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fenglin]

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

Genome-wide mapping of cytosine methylation revealed dynamic DNA methylation patterns associated with genes and centromeres in rice.

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. TAG

Structure, allelic diversity and selection of Asr genes, candidate for drought tolerance, in Oryza sativa L. and wild relatives. [涓嬭浇]

鏍藉煿绋诲拰閲庣敓绋绘姉鏃卞熀鍥燗sr鐩稿叧鐮旂┒銆�

2. JEB

Functional analysis of a novel Cys2/His2-type zinc finger protein involved in salt tolerance in rice. [涓嬭浇]

寮犵孩鐢熻�佸笀鐨勩�傜數瀛愬厠闅嗗埌鐨勪竴涓�愮洂鐩稿叧鐨勯攲鎸囪泲鐧姐��

3. Curr Opin

Ubiquitination in plant immunity [涓嬭浇]

娉涚礌鍦ㄦ鐗╁厤鐤腑鐨勪綔鐢ㄧ患杩般��

4. PP

Genome wide classification and evolutionary analysis of the bHLH family of transcription factors in Arabidopsis, poplar, rice, moss and algae. [涓嬭浇]

鎷熷崡鑺ワ紝鏉ㄦ爲锛屾按绋伙紝鑻旇棑锛岃椈绫籦HLH杞綍鍥犲瓙瀹舵棌鍒嗘瀽銆�

(Plant J鍜孭lanta鐨刉iley鏁版嵁搴撲技涔庝笉鏄涓�鏃堕棿缁欏嚭鍘熸枃锛岃皝鏈夊叾浠栨暟鎹簱鐨勯摼鎺ワ紵)

1. Plant Physiology

Identification and application of a rice senescence-associated promoter [鏈帓鐗堝叏鏂嘳

姘寸ɑ涓�涓“鑰佺浉鍏冲惎鍔ㄥ瓙鐨勯壌瀹氬拰搴旂敤銆�

2. Plant Cell

Translocation of Magnaporthe oryzae Effectors into Rice Cells and Their Subsequent Cell-to-Cell Movement. [鍏ㄦ枃]

瀵煎叆绋荤槦鐥呰弻鑷虫按绋荤粏鑳炲強鍏跺湪缁嗚優涓殑杩愯緭銆�

3. Planta

Isolation and characterization of a rice mutant with narrow and rolled leaves.

姘寸ɑ涓�涓獎銆佸嵎鍙秐rl1绐佸彉浣撱��

Changes in nitrogen assimilation, metabolism, and growth in transgenic rice plants expressing a fungal NADP(H)-dependent glutamate dehydrogenase (gdhA).

杞湡鑿岃胺姘ㄩ吀鑴辨阿閰舵按绋荤殑鐢熼暱鍙樺寲銆�

4. Plant J

Brittle Culm12, a dual-targeting Kinesin-4 protein, controls cell cycle progression and wall properties in rice.

鑴嗘潌12鍙封�︹�︿竴椹卞姩铔嬬櫧鎺у埗缁嗚優鍛ㄦ湡鍜岀粏鑳炲銆�

(===璁哄潧閾炬帴===)

1. Trends in Plant Science

An introduction to the mechanics of morphogenesis for plant biologists [鍏ㄦ枃]

妞嶇墿褰㈡�佸姏瀛�(?)鐨勪粙缁嶃��

The biosynthetic pathways and biological scopes of plant small RNAs [鍏ㄦ枃]

妞嶇墿灏廟NA鐨勫悎鎴愰�斿緞鍜屼綔鐢ㄣ��

2. Plant Cell

How a Plant Builds Leaves [鍏ㄦ枃]

妞嶇墿鍙剁墖鐨勫缓鎴愩��

3. J Exp Bot

Crop management techniques to enhance harvest index in rice. [鍏ㄦ枃]

浣滅墿绠＄悊鎶�鏈彁楂樻按绋荤殑鏀惰幏鎸囨暟銆傛病鍏磋叮鐨勬棤瑙嗏�︹��

Genome-wide identification, classification, and expression analysis of the arabinogalactan protein gene family in rice (Oryza sativa L.). [鍏ㄦ枃]

姘寸ɑ闃挎媺浼崐涔宠仛绯� 铔嬬櫧鍩哄洜瀹舵棌鍒嗘瀽銆�

4. Plant J

Identification of grapevine microRNAs and their targets using high throughput sequencing and degradome analysis

钁¤悇澶ц妯℃祴搴忓拰闄嶈В缁勫疄楠岄壌瀹歮icroRNA鐨勪綔鐢ㄧ洰鏍囥��

Rice early flowering1, a CKI, phosphorylates DELLA protein SLR1 to negatively regulate gibberellin signalling [鍏ㄦ枃]

浠婂ぉ鍙戠幇鎵�闀垮彂浜嗙瘒EMBO锛屽拰姘寸ɑGA鐩稿叧鐨勶紝鏂囩珷閲屼粙缁嶄簡涓�涓猚asein kinase I锛屽彲浠ョ７閰稿寲姘寸ɑ鐨凞ELLA聽铔嬬櫧 SLR1锛岃繘鑰岃礋璋冩帶GA淇″彿

(===璁哄潧閾炬帴===)

1. PMB

Genome-wide analysis of helicase gene family from rice and Arabidopsis: a comparison with yeast and human [鍏ㄦ枃]

姘寸ɑ鍜屾嫙鍗�鑺�瑙ｆ棆閰跺熀鍥犲鏃�鍏ㄥ熀鍥犵粍鍒嗘瀽锛屼笌閰垫瘝鍜屼汉鐨勬瘮杈�

2. Current Opinion in Plant Biology

From genome studies to agricultural biotechnology: closing the gap between basic plant science and applied agriculture [鍏ㄦ枃]

缁艰堪鏂囩珷锛孍ditorial overview銆傚熀纭�绉戝濡備綍鏇村ソ搴旂敤浜庡啘涓氥��

3. TAG

Fine-mapping of qRL6.1, a major QTL for root length of rice seedlings grown under a wide range of NH(4) (+) concentrations in hydroponic conditions. [鍏ㄦ枃]

閾电洂涓按绋绘牴闀縌TL绮剧粏瀹氫綅銆�

4. PNAS

Conservation and divergence of methylation patterning in plants and animals [鍏ㄦ枃](姣旇緝澶э紝鑰愬績涓�)

妞嶇墿/鍔ㄧ墿鐢插熀鍖栨ā寮忕殑淇濆畧鍜屽尯鍒��

5. Plant Physiology

The SEPALLATA-like gene OsMADS34 is required for rice inflorescence and spikelet development [鍏ㄦ枃,鏈帓鐗圿

姘寸ɑ鑺卞拰灏忕鍙戣偛鐩稿叧鐨凮sMADS34鍩哄洜銆�

(===璁哄潧閾炬帴===) 璋㈣阿璁哄潧閲岀殑鍝ヤ滑鎻愪緵鍏ㄦ枃 o(*鈮р柦鈮�)銉�

1. Theor Appl Genet. 2010 Apr 4.

Genetic diversity and population structure of a diverse set of rice germplasm for association mapping. [鍏ㄦ枃] [璋㈣阿璁哄潧鈥済rant鈥濇彁渚沒

姘寸ɑ绉嶈川鑱斿悎浣滃浘(association mapping)鐨勯仐浼犲鏍锋�у拰绉嶇兢缁撴瀯銆�

2. Planta. 2010 Apr 6.

Rice BRITTLE CULM 3 (BC3) encodes a classical dynamin OsDRP2B essential for proper secondary cell wall synthesis. [鍏ㄦ枃] [璋㈣阿璁哄潧鈥済rant鈥濇彁渚沒

姘寸ɑBC3鍙備笌娆＄敓缁嗚優澹佺殑鍚堟垚銆�

3. J Exp Bot. 2010 Apr 2.

Analysis of five novel putative constitutive gene promoters in transgenic rice plants. [鍏ㄦ枃]

杞熀鍥犳按绋讳腑5涓富瑕佺殑缁勬垚鍨嬪惎鍔ㄥ瓙鐨勫垎鏋愩��(APX, SCP1, PGD1, R1G1B, and EIF5)

4. Current Opinion in Plant Biology

Regulation of plant biomass production [鍏ㄦ枃]

缁艰堪涓�绡囷紝妞嶇墿鐢熺墿閲忕殑璋冩帶銆�

5. Plant Cell Rep

Characterization and fine mapping of the glabrous leaf and hull mutants (gl1) in rice (Oryza sativa L.).

姘寸ɑ涓�涓棤缁掓瘺鍙剁殑绐佸彉浣撳畾浣嶏紝鏉ヨ嚜浜�9311銆�

6. Trends in Plant Science

An expanding universe of circadian networks in higher plants [涓嬭浇]

楂樼瓑妞嶇墿涓櫘閬嶅瓨鍦ㄧ殑鏄煎鑺傚緥璋冩帶缃戠粶缁艰堪銆�

Google鐖櫕浣犲お鍘夊鍟︼紝鎴戝彂浜嗗嚑鍒嗛挓浣犲氨鐖埌鍟︹�︹��