Gundlach H

References (10)

Title : Genome Sequence of Striga asiatica Provides Insight into the Evolution of Plant Parasitism - Yoshida_2019_Curr.Biol_29_3041
Author(s) : Yoshida S , Kim S , Wafula EK , Tanskanen J , Kim YM , Honaas L , Yang Z , Spallek T , Conn CE , Ichihashi Y , Cheong K , Cui S , Der JP , Gundlach H , Jiao Y , Hori C , Ishida JK , Kasahara H , Kiba T , Kim MS , Koo N , Laohavisit A , Lee YH , Lumba S , McCourt P , Mortimer JC , Mutuku JM , Nomura T , Sasaki-Sekimoto Y , Seto Y , Wang Y , Wakatake T , Sakakibara H , Demura T , Yamaguchi S , Yoneyama K , Manabe RI , Nelson DC , Schulman AH , Timko MP , dePamphilis CW , Choi D , Shirasu K
Ref : Current Biology , 29 :3041 , 2019
PubMedID: 31522940
Gene_locus related to this paper: straf-a0a5a7qxe3

Title : An improved genome release (version Mt4.0) for the model legume Medicago truncatula - Tang_2014_BMC.Genomics_15_312
Author(s) : Tang H , Krishnakumar V , Bidwell S , Rosen B , Chan A , Zhou S , Gentzbittel L , Childs KL , Yandell M , Gundlach H , Mayer KF , Schwartz DC , Town CD
Ref : BMC Genomics , 15 :312 , 2014
PubMedID: 24767513
Gene_locus related to this paper: medtr-q1s5d8 , medtr-q1s9m3 , medtr-q1t171 , medtr-g7iam1 , medtr-g7iam3 , medtr-a0a072vrv9 , medtr-g7kmk5 , medtr-a0a072uuf6 , medtr-a0a072urp3 , medtr-g7zzc3 , medtr-g7ie19 , medtr-g7kst7 , medtr-a0a072u5k5 , medtr-a0a072v056 , medtr-scp1 , medtr-g7kyn0 , medtr-g7inw6 , medtr-g7j3q3

Title : The Medicago genome provides insight into the evolution of rhizobial symbioses - Young_2011_Nature_480_520
Author(s) : Young ND , Debelle F , Oldroyd GE , Geurts R , Cannon SB , Udvardi MK , Benedito VA , Mayer KF , Gouzy J , Schoof H , Van de Peer Y , Proost S , Cook DR , Meyers BC , Spannagl M , Cheung F , De Mita S , Krishnakumar V , Gundlach H , Zhou S , Mudge J , Bharti AK , Murray JD , Naoumkina MA , Rosen B , Silverstein KA , Tang H , Rombauts S , Zhao PX , Zhou P , Barbe V , Bardou P , Bechner M , Bellec A , Berger A , Berges H , Bidwell S , Bisseling T , Choisne N , Couloux A , Denny R , Deshpande S , Dai X , Doyle JJ , Dudez AM , Farmer AD , Fouteau S , Franken C , Gibelin C , Gish J , Goldstein S , Gonzalez AJ , Green PJ , Hallab A , Hartog M , Hua A , Humphray SJ , Jeong DH , Jing Y , Jocker A , Kenton SM , Kim DJ , Klee K , Lai H , Lang C , Lin S , Macmil SL , Magdelenat G , Matthews L , McCorrison J , Monaghan EL , Mun JH , Najar FZ , Nicholson C , Noirot C , O'Bleness M , Paule CR , Poulain J , Prion F , Qin B , Qu C , Retzel EF , Riddle C , Sallet E , Samain S , Samson N , Sanders I , Saurat O , Scarpelli C , Schiex T , Segurens B , Severin AJ , Sherrier DJ , Shi R , Sims S , Singer SR , Sinharoy S , Sterck L , Viollet A , Wang BB , Wang K , Wang M , Wang X , Warfsmann J , Weissenbach J , White DD , White JD , Wiley GB , Wincker P , Xing Y , Yang L , Yao Z , Ying F , Zhai J , Zhou L , Zuber A , Denarie J , Dixon RA , May GD , Schwartz DC , Rogers J , Quetier F , Town CD , Roe BA
Ref : Nature , 480 :520 , 2011
PubMedID: 22089132
Gene_locus related to this paper: medtr-b7fki4 , medtr-b7fmi1 , medtr-g7itl1 , medtr-g7iu67 , medtr-g7izm0 , medtr-g7j641 , medtr-g7jtf8 , medtr-g7jtg2 , medtr-g7jtg4 , medtr-g7kem3 , medtr-g7kml3 , medtr-g7ksx5 , medtr-g7leb3 , medtr-q1s5d8 , medtr-q1s9m3 , medtr-q1t171 , medtr-g7k9e1 , medtr-g7k9e3 , medtr-g7k9e5 , medtr-g7k9e8 , medtr-g7k9e9 , medtr-g7lbp2 , medtr-g7lch3 , medtr-g7ib94 , medtr-g7ljk8 , medtr-g7i6w5 , medtr-g7kvg4 , medtr-g7iam1 , medtr-g7iam3 , medtr-g7l754 , medtr-g7jr41 , medtr-g7l4f5 , medtr-g7l755 , medtr-a0a072vyl4 , medtr-g7jwk8 , medtr-a0a072vhg0 , medtr-a0a072vrv9 , medtr-g7kmk5 , medtr-a0a072uuf6 , medtr-a0a072urp3 , medtr-g7zzc3 , medtr-g7ie19 , medtr-g7kst7 , medtr-a0a072u5k5 , medtr-a0a072v056 , medtr-scp1 , medtr-g7kyn0 , medtr-g7inw6 , medtr-g7j3q3

Title : The Arabidopsis lyrata genome sequence and the basis of rapid genome size change - Hu_2011_Nat.Genet_43_476
Author(s) : Hu TT , Pattyn P , Bakker EG , Cao J , Cheng JF , Clark RM , Fahlgren N , Fawcett JA , Grimwood J , Gundlach H , Haberer G , Hollister JD , Ossowski S , Ottilar RP , Salamov AA , Schneeberger K , Spannagl M , Wang X , Yang L , Nasrallah ME , Bergelson J , Carrington JC , Gaut BS , Schmutz J , Mayer KF , Van de Peer Y , Grigoriev IV , Nordborg M , Weigel D , Guo YL
Ref : Nat Genet , 43 :476 , 2011
PubMedID: 21478890
Gene_locus related to this paper: arall-d7kc59 , arall-d7kfz1 , arall-d7kjk9 , arall-d7kk58 , arall-d7kuj1 , arall-d7kwx5 , arall-d7kzq8 , arall-d7laf7 , arall-D7LAK6 , arall-d7ltj2 , arall-d7lu11 , arall-d7ly06 , arall-d7lyn6 , arall-d7m1k0 , arall-d7m1k1 , arall-d7m1k3 , arall-d7m1l4 , arall-d7m814 , arall-d7mbk0 , arall-d7mbn8 , arall-d7mgs1 , arall-d7mi04 , arall-d7mld7 , arall-d7mpg7 , arall-d7mul9 , arath-At2g45610 , arath-At1g05790 , arath-At1g09980 , arath-At1g18360 , arath-AT1G29120 , arath-AT1G73920 , arath-AT1G76140 , arath-AT2G05260 , arath-At2g15230 , arath-At2g24280 , arath-AT2G42690 , arath-At2g47630 , arath-AT3G12150 , arath-At3g61680 , arath-AT3g62590 , arath-AT4G00500 , arath-AT4G25770 , arath-AT4g30610 , arath-At5g11650 , arath-At5g13640 , arath-AT5G19050 , arath-AT5G20060 , arath-AT5G20520 , arath-AT5G27320 , arath-At5g42930 , arath-At5g47330 , arath-CGEP , arath-clh1 , arath-clh2 , arath-F1N13.220 , arath-F2G14.100 , arath-F12A4.4 , arath-F14O10.2 , arath-SCP27 , arath-HNL , arath-GID1B , arath-LIP2 , arath-At5g17670 , arath-pip , arath-PLA11 , arath-PLA12 , arath-PLA13 , arath-PLA15 , arath-PLA17 , arath-Q8LPF5 , arath-Q9FFZ1 , arath-Q9FJ29 , arath-Q9FKP9 , arath-Q9FNF6 , arath-q9lhe8 , arath-Q9SFF6 , arath-q84w08 , arath-SCP7 , arath-SCP8 , arath-SCP26 , arath-SCP28 , arath-SCP33 , arath-SCP40 , arath-SCPL34 , arath-At4g12230 , arath-MES14 , arath-T19F11.2 , arath-MES10 , arath-At5g11790 , arath-T26B15.8 , arath-ZW18 , arall-d7l971 , arall-d7lfd3 , arall-d7lg04 , arall-d7lg05 , arall-d7lg06 , arall-d7lg07 , arall-d7mb17 , arall-d7mb18 , arall-d7l7v2 , arall-d7l7v3 , arall-d7lst0 , arall-d7lfw9 , arall-d7mgs6 , arall-d7mur3 , arall-d7kjr5 , arall-d7l7v1 , arall-d7ls88 , arall-d7kzg6 , arall-d7kcm6 , arall-d7krm0 , arall-d7kwe4 , arall-d7lri7 , arall-d7kq26

Title : Genome sequencing and analysis of the model grass Brachypodium distachyon. -
Author(s) : Vogel JP , Garvin DF , Mockler TC , Schmutz J , Rokhsar D , Bevan MW , Barry K , Lucas S , Harmon-Smith M , Lail K , Tice H , Grimwood J , McKenzie N , Huo N , Gu YQ , Lazo GR , Anderson OD , You FM , Luo MC , Dvorak J , Wright J , Febrer M , Idziak D , Hasterok R , Lindquist E , Wang M , Fox SE , Priest HD , Filichkin SA , Givan SA , Bryant DW , Chang JH , Wu H , Wu W , Hsia AP , Schnable PS , Kalyanaraman A , Barbazuk B , Michael TP , Hazen SP , Bragg JN , Laudencia-Chingcuanco D , Weng Y , Haberer G , Spannagl M , Mayer K , Rattei T , Mitros T , Lee SJ , Rose JK , Mueller LA , York TL , Wicker T , Buchmann JP , Tanskanen J , Schulman AH , Gundlach H , Bevan M , de Oliveira AC , Maia Lda C , Belknap W , Jiang N , Lai J , Zhu L , Ma J , Sun C , Pritham E , Salse J , Murat F , Abrouk M , Bruggmann R , Messing J , Fahlgren N , Sullivan CM , Carrington JC , Chapman EJ , May GD , Zhai J , Ganssmann M , Gurazada SG , German M , Meyers BC , Green PJ , Tyler L , Wu J , Thomson J , Chen S , Scheller HV , Harholt J , Ulvskov P , Kimbrel JA , Bartley LE , Cao P , Jung KH , Sharma MK , Vega-Sanchez M , Ronald P , Dardick CD , De Bodt S , Verelst W , Inz D , Heese M , Schnittger A , Yang X , Kalluri UC , Tuskan GA , Hua Z , Vierstra RD , Cui Y , Ouyang S , Sun Q , Liu Z , Yilmaz A , Grotewold E , Sibout R , Hematy K , Mouille G , Hofte H , Michael T , Pelloux J , O'Connor D , Schnable J , Rowe S , Harmon F , Cass CL , Sedbrook JC , Byrne ME , Walsh S , Higgins J , Li P , Brutnell T , Unver T , Budak H , Belcram H , Charles M , Chalhoub B , Baxter I
Ref : Nature , 463 :763 , 2010
PubMedID: 20148030
Gene_locus related to this paper: bradi-i1grm0 , bradi-i1gx82 , bradi-i1hb80 , bradi-i1hkv6 , bradi-i1hpu6 , bradi-i1i3e4 , bradi-i1i9i0 , bradi-i1i435 , bradi-i1ix93 , bradi-i1gsk6 , bradi-i1hk44 , bradi-i1hk45 , bradi-i1hnk7 , bradi-i1hsd5 , bradi-i1huy4 , bradi-i1huy9 , bradi-i1huz0 , bradi-i1gxx9 , bradi-i1hl25 , bradi-i1hcw7 , bradi-i1hyv6 , bradi-i1hyb5 , bradi-i1hvr8 , bradi-i1hmu2 , bradi-i1hf05 , bradi-i1gry7 , bradi-i1hf06 , bradi-i1i5z8 , bradi-i1icy3 , bradi-i1j1h3 , bradi-i1h1e3 , bradi-i1hvr9 , bradi-a0a0q3r7i7 , bradi-i1i377 , bradi-i1hjg5 , bradi-i1h3i9 , bradi-i1gsg5 , bradi-a0a0q3mph9 , bradi-i1h682 , bradi-a0a0q3lc91 , bradi-i1gx49 , bradi-i1i839 , bradi-a0a2k2dsp5 , bradi-i1gsb5

Title : Green evolution and dynamic adaptations revealed by genomes of the marine picoeukaryotes Micromonas - Worden_2009_Science_324_268
Author(s) : Worden AZ , Lee JH , Mock T , Rouze P , Simmons MP , Aerts AL , Allen AE , Cuvelier ML , Derelle E , Everett MV , Foulon E , Grimwood J , Gundlach H , Henrissat B , Napoli C , McDonald SM , Parker MS , Rombauts S , Salamov A , von Dassow P , Badger JH , Coutinho PM , Demir E , Dubchak I , Gentemann C , Eikrem W , Gready JE , John U , Lanier W , Lindquist EA , Lucas S , Mayer KF , Moreau H , Not F , Otillar R , Panaud O , Pangilinan J , Paulsen I , Piegu B , Poliakov A , Robbens S , Schmutz J , Toulza E , Wyss T , Zelensky A , Zhou K , Armbrust EV , Bhattacharya D , Goodenough UW , Van de Peer Y , Grigoriev IV
Ref : Science , 324 :268 , 2009
PubMedID: 19359590
Gene_locus related to this paper: 9chlo-c1e363 , 9chlo-c1ehp8 , 9chlo-c1fhv2 , 9chlo-c1mis3 , 9chlo-c1na62 , micpc-c1mh04 , micpc-c1mhj0 , micpc-c1mie7 , micpc-c1mj20 , micpc-c1mjh0 , micpc-c1mny7 , micpc-c1mpb2 , micpc-c1mrl2 , micpc-c1msr1 , micpc-c1mvk4 , micpc-c1mvx4 , micpc-c1n5d2 , micpc-c1n6i2 , micpc-c1n842 , micsr-c1dzu1 , micsr-c1e0v8 , micsr-c1e2u5 , micsr-c1e4q6 , micsr-c1e6z5 , micsr-c1e046 , micsr-c1e286 , micsr-c1eap0 , micsr-c1ec00 , micsr-c1edy4 , micsr-c1efl2 , micsr-c1eh15 , micsr-c1ei44 , micsr-c1eii9 , micsr-c1eiz1 , micsr-c1fft1 , micsr-c1fi89 , micsr-c1fj57 , micsr-c1e9f6 , micsr-c1e9u2 , micsr-c1fgg8 , micpc-c1mie3 , micpc-c1ms20 , micpc-c1n640 , miccc-c1e278 , micpc-c1mpa6

Title : The Sorghum bicolor genome and the diversification of grasses - Paterson_2009_Nature_457_551
Author(s) : Paterson AH , Bowers JE , Bruggmann R , Dubchak I , Grimwood J , Gundlach H , Haberer G , Hellsten U , Mitros T , Poliakov A , Schmutz J , Spannagl M , Tang H , Wang X , Wicker T , Bharti AK , Chapman J , Feltus FA , Gowik U , Grigoriev IV , Lyons E , Maher CA , Martis M , Narechania A , Otillar RP , Penning BW , Salamov AA , Wang Y , Zhang L , Carpita NC , Freeling M , Gingle AR , Hash CT , Keller B , Klein P , Kresovich S , McCann MC , Ming R , Peterson DG , Mehboob ur R , Ware D , Westhoff P , Mayer KF , Messing J , Rokhsar DS
Ref : Nature , 457 :551 , 2009
PubMedID: 19189423
Gene_locus related to this paper: sorbi-b3vtb2 , sorbi-c5wp75 , sorbi-c5wts6 , sorbi-c5wu07 , sorbi-c5wvl7 , sorbi-c5ww85 , sorbi-c5ww86 , sorbi-c5wxa4 , sorbi-c5x1f6 , sorbi-c5x2x9 , sorbi-c5x5z9 , sorbi-c5x6q0 , sorbi-c5x230 , sorbi-c5x290 , sorbi-c5x345 , sorbi-c5x399 , sorbi-c5x610 , sorbi-c5xbm4 , sorbi-c5xct0 , sorbi-c5xdv0 , sorbi-c5xe87 , sorbi-c5xf40 , sorbi-c5xfu9 , sorbi-c5xh40 , sorbi-c5xh41 , sorbi-c5xh42 , sorbi-c5xh43 , sorbi-c5xh44 , sorbi-c5xh46 , sorbi-c5xhr2 , sorbi-c5xiw7 , sorbi-c5xjf0 , sorbi-c5xky2 , sorbi-c5xm54 , sorbi-c5xmb9 , sorbi-c5xmz5 , sorbi-c5xp10 , sorbi-c5xpm6 , sorbi-c5xr91 , sorbi-c5xr92 , sorbi-c5xs33 , sorbi-c5xtz0 , sorbi-c5xwd3 , sorbi-c5y0d2 , sorbi-c5y0h4 , sorbi-c5y3i5 , sorbi-c5y7x0 , sorbi-c5y517 , sorbi-c5y545 , sorbi-c5ydr3 , sorbi-c5yec0 , sorbi-c5yf71 , sorbi-c5yi32 , sorbi-c5yih2 , sorbi-c5ylw6 , sorbi-c5yn66 , sorbi-c5ynp8 , sorbi-c5yt11 , sorbi-c5yur5 , sorbi-c5ywz3 , sorbi-c5ywz4 , sorbi-c5yx73 , sorbi-c5yyn0 , sorbi-c5z2m6 , sorbi-c5z6a9 , sorbi-c5z6j1 , sorbi-c5z6s5 , sorbi-c5z177 , sorbi-Q9XE80 , sorbi-c5xyg4 , sorbi-c5z4q0 , sorbi-c5xly4 , sorbi-c5z4u8 , sorbi-c5xxg5 , sorbi-c5z9b9 , sorbi-a0a1z5r970 , sorbi-c5xhf9 , sorbi-c5yxt7 , sorbi-c5yxt6 , sorbi-c5y1m2 , sorbi-c5xdy6 , sorbi-a0a194ysf6 , sorbi-a0a1b6pnr2 , sorbi-a0a1b6qcb9 , sorbi-c5xx30 , sorbi-a0a1b6psg4 , sorbi-a0a1z5rj80 , sorbi-a0a1b6qfm2 , sorbi-a0a1b6qmu5 , sorbi-c6jru0

Title : The Physcomitrella genome reveals evolutionary insights into the conquest of land by plants - Rensing_2008_Science_319_64
Author(s) : Rensing SA , Lang D , Zimmer AD , Terry A , Salamov A , Shapiro H , Nishiyama T , Perroud PF , Lindquist EA , Kamisugi Y , Tanahashi T , Sakakibara K , Fujita T , Oishi K , Shin IT , Kuroki Y , Toyoda A , Suzuki Y , Hashimoto S , Yamaguchi K , Sugano S , Kohara Y , Fujiyama A , Anterola A , Aoki S , Ashton N , Barbazuk WB , Barker E , Bennetzen JL , Blankenship R , Cho SH , Dutcher SK , Estelle M , Fawcett JA , Gundlach H , Hanada K , Heyl A , Hicks KA , Hughes J , Lohr M , Mayer K , Melkozernov A , Murata T , Nelson DR , Pils B , Prigge M , Reiss B , Renner T , Rombauts S , Rushton PJ , Sanderfoot A , Schween G , Shiu SH , Stueber K , Theodoulou FL , Tu H , Van de Peer Y , Verrier PJ , Waters E , Wood A , Yang L , Cove D , Cuming AC , Hasebe M , Lucas S , Mishler BD , Reski R , Grigoriev IV , Quatrano RS , Boore JL
Ref : Science , 319 :64 , 2008
PubMedID: 18079367
Gene_locus related to this paper: phypa-a9rbi6 , phypa-a9rfh1 , phypa-a9rg19 , phypa-a9rgt9 , phypa-a9rhz9 , phypa-a9rkj1 , phypa-a9rns2 , phypa-a9rp52 , phypa-a9rq03 , phypa-a9ry17 , phypa-a9ry72 , phypa-a9s5n8 , phypa-a9s6w1 , phypa-a9s8c7 , phypa-a9s299 , phypa-a9san7 , phypa-a9sc75 , phypa-a9se75 , phypa-a9sg07 , phypa-a9skf7 , phypa-a9skr1 , phypa-a9skw1 , phypa-a9sl58 , phypa-a9slp7 , phypa-a9smq5 , phypa-a9sp13 , phypa-a9ssb0 , phypa-a9sse1 , phypa-a9ssf6 , phypa-a9st85 , phypa-a9sx74 , phypa-a9sy58 , phypa-a9syy4 , phypa-a9t0n4 , phypa-a9t0p4 , phypa-a9t1j2 , phypa-a9t5h1 , phypa-a9t7g6 , phypa-a9t8u8 , phypa-a9t9c9 , phypa-a9t9d9 , phypa-a0a7i4d2t7 , phypa-a9t498 , phypa-a9tbu4 , phypa-a9tc36 , phypa-a9tds0 , phypa-a9te64 , phypa-a9tfw2 , phypa-a9tin6 , phypa-a9tja4 , phypa-a9tmp3 , phypa-a9tmr4 , phypa-a9tql4 , phypa-a9tr83 , phypa-a9tsl1 , phypa-a9tsv6 , phypa-a9tu05 , phypa-a9tw81 , phypa-a9tyr8 , phypa-a9u0c9 , phypa-a9u0k3 , phypa-a9u0p4 , phypa-a9u2u7 , phypa-a9u3s0 , phypa-a9tfm7 , phypa-a9tfp6 , phypa-a9syg9 , phypa-a9tzk2 , phypa-a9tvg4 , phypa-a9t1y4 , phypa-a9tqt6 , phypa-a9st18 , phypa-a9tix9 , phypa-a0a2k1kfe3 , phypa-a9sqk3 , phypa-a0a2k1ie71 , phypa-a0a2k1kg29 , phypa-a0a2k1iji3