anoga-ACHE1

Anopheles gambiae; A. funestus; A. minimus; A. moucheti; A. nili; A. pseudopunctipennis; A. sacharovi; A. stephensi; A. sundaicus; A. albimanus; Anopheles sinensis; A. vagus; A. melas; A. arabiensis; A. christyi; A. coluzzii; A. epiroticus; A. funestus; A. merus; A. quadriannulatus; A. stephensi A. atroparvu; A. farauti A. maculatus; A. pseudopunctipennis; A. vestitipennis; A. culicifacies; A. minimus; A. dirus acetylchlolinesterase 1

Comment

Partial sequence from this gene found in many other anopheles mosquitos: As the sequences are very close and in order to keep track of comparison of mutations, only one entry in ESTHER groups the sequences of these different strains. The important mutation G119S_anoga-ACHE1 responsible for insecticide resistance was found in most of these species. Aedes albopictus (Forest day mosquito) Q868Q2 AJ438598, Anopheles arabiensis (Mosquito) Q868P7 AJ438603, Anopheles darlingi Q868Q1 AJ438599, Anopheles funestus Q0N3S4_ANOFN Q868P6 AJ438604, Anopheles minimus Q868P9 AJ438601, Anopheles moucheti Q868P8 AJ438602, Anopheles nili Q868P1 AJ438609, Anopheles pseudopunctipennis AJ438605 Q868P5, Anopheles sacharovi Q868P4 AJ438606, Anopheles stephensi (Indo-Pakistan malaria mosquito) Q868P3 AJ438607, Anopheles sundaicus Q868Q0 AJ438600. Weill et al 2004 Q70LH8 Q70LH7 Anopheles albimanus (New world malaria mosquito)\; Anopheles sinensis\; Anopheles vagus\; Anopheles melas\; nopheles arabiensis\; Anopheles christyi\; Anopheles coluzzii\; Anopheles epiroticus\; Anopheles funestus\; Anopheles merus\; Anopheles quadriannulatus\; Anopheles stephensi\; Anopheles atroparvu\; Anopheles farauti\; Anopheles maculatus\; Anopheles pseudopunctipennis\; Anopheles vestitipennis\; Anopheles culicifacies\; Anopheles minimus Anopheles dirus

Relationship

Family : ACHE

Block : C

Position in NCBI Life Tree : Anopheles gambiae

(Below N is a link to NCBI taxonomic web page and E link to ESTHER at designed phylum.)

> cellular organisms N E > Eukaryota N E > Opisthokonta N E > Metazoa N E > Eumetazoa N E > Bilateria N E > Protostomia N E > Ecdysozoa N E > Panarthropoda N E > Arthropoda N E > Mandibulata N E > Pancrustacea N E > Hexapoda N E > Insecta N E > Dicondylia N E > Pterygota N E > Neoptera N E > Holometabola N E > Diptera N E > Nematocera N E > Culicomorpha N E > Culicoidea N E > Culicidae N E > Anophelinae N E > Anopheles [genus] N E > Cellia N E > Pyretophorus N E > gambiae species complex N E > Anopheles gambiae N E

Database

Sequence

Peptide

MEIRGLLMGR LRLGRRMVPL GLLGVTALLL ILPPSALVQG RHHELNNGAA IGSHQLSAAA GVGLSSQSAQ SGSLASGVMS SVPAAGASSS SSSSLLSSSA EDDVARITLS KDADAFFTPY IGHGESVRII DAELGTLEHV HSGATPRRRG LTRRESNSDA NDNDPLVVNT DKGRIRGITV DAPSGKKVDV WLGIPYAQPP VGPLRFRHPR PAEKWTGVLN TTTPPNSCVQ IVDTVFGDFP GATMWNPNTP LSEDCLYINV VAPRPRPKNA AVMLWIFGGG FYSGTATLDV YDHRALASEE NVIVVSLQYR VASLGFLFLG TPEAPGNAGL FDQNLALRWV RDNIHRFGGD PSRVTLFGES AGAVSVSLHL LSALSRDLFQ RAILQSGSPT APWALVSREE ATLRALRLAE AVGCPHEPSK LSDAVECLRG KDPHVLVNNE WGTLGICEFP FVPVVDGAFL DETPQRSLAS GRFKKTEILT GSNTEEGYYF IIYYLTELLR KEEGVTVTRE EFLQAVRELN PYVNGAARQA IVFEYTDWTE PDNPNSNRDA LDKMVGDYHF TCNVNEFAQR YAEEGNNVYM YLYTHRSKGN PWPRWTGVMH GDEINYVFGE PLNPTLGYTE DEKDFSRKIM RYWSNFAKTG NPNPNTASSE FPEWPKHTAH GRHYLELGLN TSFVGRGPRL RQCAFWKKYL PQLVAATSNL PGPAPPSEPC ESSAFFYRPD LIVLLVSLLT ATVRFIQ

References (31)

Title : Ace-1 Target Site Status and Metabolic Detoxification Associated with Bendiocarb Resistance in the Field Populations of Main Malaria Vector, Anopheles stephensi in Iran - Badzohre_2023_J.Arthropod.Borne.Dis_17_272
Author(s) : Badzohre A , Oshaghi MA , Enayati AA , Moosa-Kazemi SH , Nikookar SH , Talebzadeh F , Naseri-Karimi N , Hanafi-Bojd AA , Vatandoost H
Ref : J Arthropod Borne Dis , 17 :272 , 2023
Abstract :
PubMedSearch : Badzohre_2023_J.Arthropod.Borne.Dis_17_272
PubMedID: 38860197
Gene_locus related to this paper: anoga-ACHE1

Title : Distribution of acetylcholinesterase (Ace-1(R)) target-site G119S mutation and resistance to carbamates and organophosphates in Anopheles gambiae sensu lato populations from Cameroon - Binyang_2022_Parasit.Vectors_15_53
Author(s) : Binyang AJ , Elanga-Ndille E , Tene-Fossog B , Ndo C , Nouage L , Assatse T , Fotso-Toguem Y , Tabue R , Zeukeng F , Nguiffo DN , Etang J , Njiokou F , Wondji CS
Ref : Parasit Vectors , 15 :53 , 2022
Abstract :
PubMedSearch : Binyang_2022_Parasit.Vectors_15_53
PubMedID: 35164852
Gene_locus related to this paper: anoga-ACHE1

Title : Structure of the G119S Mutant Acetylcholinesterase of the Malaria Vector Anopheles gambiae Reveals Basis of Insecticide Resistance - Cheung_2018_Structure_26_130
Author(s) : Cheung J , Mahmood A , Kalathur R , Liu L , Carlier PR
Ref : Structure , 26 :130 , 2018
Abstract :
PubMedSearch : Cheung_2018_Structure_26_130
PubMedID: 29276037
Gene_locus related to this paper: anoga-ACHE1

Title : Crystal structure of acetylcholinesterase catalytic subunits of the malaria vector Anopheles gambiae - Han_2018_Insect.Sci_25_721
Author(s) : Han Q , Wong DM , Robinson H , Ding H , Lam PC , Totrov MM , Carlier PR , Li J
Ref : Insect Sci , 25 :721 , 2018
Abstract :
PubMedSearch : Han_2018_Insect.Sci_25_721
PubMedID: 28247978
Gene_locus related to this paper: anoga-ACHE1

Title : N-Aryl-N'-ethyleneaminothioureas effectively inhibit acetylcholinesterase 1 from disease-transmitting mosquitoes - Knutsson_2017_Eur.J.Med.Chem_134_415
Author(s) : Knutsson S , Kindahl T , Engdahl C , Nikjoo D , Forsgren N , Kitur S , Ekstrom F , Kamau L , Linusson A
Ref : Eur Journal of Medicinal Chemistry , 134 :415 , 2017
Abstract :
PubMedSearch : Knutsson_2017_Eur.J.Med.Chem_134_415
PubMedID: 28433681
Gene_locus related to this paper: anoga-ACHE1

Title : Discovery of Selective Inhibitors Targeting Acetylcholinesterase 1 from Disease-Transmitting Mosquitoes - Engdahl_2016_J.Med.Chem_59_9409
Author(s) : Engdahl C , Knutsson S , Ekstrom F , Linusson A
Ref : Journal of Medicinal Chemistry , 59 :9409 , 2016
Abstract :
PubMedSearch : Engdahl_2016_J.Med.Chem_59_9409
PubMedID: 27598521
Gene_locus related to this paper: anoga-ACHE1 , mouse-ACHE

Title : Contemporary evolution of resistance at the major insecticide target site gene Ace-1 by mutation and copy number variation in the malaria mosquito Anopheles gambiae - Weetman_2015_Mol.Ecol_24_2656
Author(s) : Weetman D , Mitchell SN , Wilding CS , Birks DP , Yawson AE , Essandoh J , Mawejje HD , Djogbenou LS , Steen K , Rippon EJ , Clarkson CS , Field SG , Rigden DJ , Donnelly MJ
Ref : Mol Ecol , 24 :2656 , 2015
Abstract :
PubMedSearch : Weetman_2015_Mol.Ecol_24_2656
PubMedID: 25865270
Gene_locus related to this paper: anoga-ACHE1

Title : Distribution and frequency of G119S mutation in ace-1 gene within Anopheles sinensis populations from Guangxi, China - Feng_2015_Malar.J_14_470
Author(s) : Feng X , Yang C , Yang Y , Li J , Lin K , Li M , Qiu X
Ref : Malar J , 14 :470 , 2015
Abstract :
PubMedSearch : Feng_2015_Malar.J_14_470
PubMedID: 26608572
Gene_locus related to this paper: anoga-ACHE1

Title : Acetylcholinesterases from the Disease Vectors Aedes aegypti and Anopheles gambiae: Functional Characterization and Comparisons with Vertebrate Orthologues - Engdahl_2015_PLoS.One_10_e0138598
Author(s) : Engdahl C , Knutsson S , Fredriksson SA , Linusson A , Bucht G , Ekstrom F
Ref : PLoS ONE , 10 :e0138598 , 2015
Abstract :
PubMedSearch : Engdahl_2015_PLoS.One_10_e0138598
PubMedID: 26447952
Gene_locus related to this paper: aedae-ACHE1 , anoga-ACHE1

Title : Novel mutations on the ace-1 gene of the malaria vector Anopheles albimanus provide evidence for balancing selection in an area of high insecticide resistance in Peru - Liebman_2015_Malar.J_14_74
Author(s) : Liebman KA , Pinto J , Valle J , Palomino M , Vizcaino L , Brogdon W , Lenhart A
Ref : Malar J , 14 :599 , 2015
Abstract :
PubMedSearch : Liebman_2015_Malar.J_14_74
PubMedID: 25889700
Gene_locus related to this paper: anoga-ACHE1

Title : Mosquitocidal carbamates with low toxicity to agricultural pests: an advantageous property for insecticide resistance management - Swale_2015_Pest.Manag.Sci_71_1158
Author(s) : Swale DR , Carlier PR , Hartsel JA , Ma M , Bloomquist JR
Ref : Pest Manag Sci , 71 :1158 , 2015
Abstract :
PubMedSearch : Swale_2015_Pest.Manag.Sci_71_1158
PubMedID: 25185896
Gene_locus related to this paper: anoga-ACHE1

Title : Insecticide resistance of Anopheles sinensis and An. vagus in Hainan Island, a malaria-endemic area of China - Qin_2014_Parasit.Vectors_7_92
Author(s) : Qin Q , Li Y , Zhong D , Zhou N , Chang X , Li C , Cui L , Yan G , Chen XG
Ref : Parasit Vectors , 7 :92 , 2014
Abstract :
PubMedSearch : Qin_2014_Parasit.Vectors_7_92
PubMedID: 24589247
Gene_locus related to this paper: anoga-ACHE1

Title : Salivary Gland Proteome Analysis Reveals Modulation of Anopheline Unique Proteins in Insensitive Acetylcholinesterase Resistant Anopheles gambiae Mosquitoes - Cornelie_2014_PLoS.One_9_e103816
Author(s) : Cornelie S , Rossignol M , Seveno M , Demettre E , Mouchet F , Djegbe I , Marin P , Chandre F , Corbel V , Remoue F , Mathieu-Daude F
Ref : PLoS ONE , 9 :e103816 , 2014
Abstract :
PubMedSearch : Cornelie_2014_PLoS.One_9_e103816
PubMedID: 25102176
Gene_locus related to this paper: anoga-ACHE1

Title : CYP6 P450 Enzymes and ACE-1 Duplication Produce Extreme and Multiple Insecticide Resistance in the Malaria Mosquito Anopheles gambiae - Edi_2014_PLoS.Genet_10_e1004236
Author(s) : Edi CV , Djogbenou L , Jenkins AM , Regna K , Muskavitch MA , Poupardin R , Jones CM , Essandoh J , Ketoh GK , Paine MJ , Koudou BG , Donnelly MJ , Ranson H , Weetman D
Ref : PLoS Genet , 10 :e1004236 , 2014
Abstract :
PubMedSearch : Edi_2014_PLoS.Genet_10_e1004236
PubMedID: 24651294
Gene_locus related to this paper: anoga-ACHE1

Title : Dissecting the mechanisms responsible for the multiple insecticide resistance phenotype in Anopheles gambiae s.s., M form, from Vallee de Kou, Burkina Faso - Kwiatkowska_2013_Gene_519_98
Author(s) : Kwiatkowska RM , Platt N , Poupardin R , Irving H , Dabire RK , Mitchell S , Jones CM , Diabate A , Ranson H , Wondji CS
Ref : Gene , 519 :98 , 2013
Abstract :
PubMedSearch : Kwiatkowska_2013_Gene_519_98
PubMedID: 23380570
Gene_locus related to this paper: anoga-ACHE1

Title : Aryl methylcarbamates: Potency and selectivity towards wild-type and carbamate-insensitive (G119S) Anopheles gambiae acetylcholinesterase, and toxicity to G3 strain An. gambiae - Wong_2013_Chem.Biol.Interact_203_314
Author(s) : Wong DM , Li J , Lam PC , Hartsel JA , Mutunga JM , Totrov M , Bloomquist JR , Carlier PR
Ref : Chemico-Biological Interactions , 203 :314 , 2013
Abstract :
PubMedSearch : Wong_2013_Chem.Biol.Interact_203_314
PubMedID: 22989775
Gene_locus related to this paper: anoga-ACHE1

Title : Acetylcholinesterase (Ace-1) target site mutation 119S is strongly diagnostic of carbamate and organophosphate resistance in Anopheles gambiae s.s. and Anopheles coluzzii across southern Ghana - Essandoh_2013_Malar.J_12_404
Author(s) : Essandoh J , Yawson AE , Weetman D
Ref : Malar J , 12 :404 , 2013
Abstract :
PubMedSearch : Essandoh_2013_Malar.J_12_404
PubMedID: 24206629
Gene_locus related to this paper: anoga-ACHE1

Title : Select small core structure carbamates exhibit high contact toxicity to carbamate-resistant strain malaria mosquitoes, Anopheles gambiae (Akron) - Wong_2012_PLoS.One_7_e46712
Author(s) : Wong DM , Li J , Chen QH , Han Q , Mutunga JM , Wysinski A , Anderson TD , Ding H , Carpenetti TL , Verma A , Islam R , Paulson SL , Lam PC , Totrov M , Bloomquist JR , Carlier PR
Ref : PLoS ONE , 7 :e46712 , 2012
Abstract :
PubMedSearch : Wong_2012_PLoS.One_7_e46712
PubMedID: 23049714
Gene_locus related to this paper: anoga-ACHE1

Title : Re-engineering aryl methylcarbamates to confer high selectivity for inhibition of Anopheles gambiae versus human acetylcholinesterase - Hartsel_2012_Bioorg.Med.Chem.Lett_22_4593
Author(s) : Hartsel JA , Wong DM , Mutunga JM , Ma M , Anderson TD , Wysinski A , Islam R , Wong EA , Paulson SL , Li J , Lam PC , Totrov MM , Bloomquist JR , Carlier PR
Ref : Bioorganic & Medicinal Chemistry Lett , 22 :4593 , 2012
Abstract :
PubMedSearch : Hartsel_2012_Bioorg.Med.Chem.Lett_22_4593
PubMedID: 22738634
Gene_locus related to this paper: anoga-ACHE1

Title : Novel AChE inhibitors for sustainable insecticide resistance management - Alout_2012_PLoS.One_7_e47125
Author(s) : Alout H , Labbe P , Berthomieu A , Djogbenou L , Leonetti JP , Fort P , Weill M
Ref : PLoS ONE , 7 :e47125 , 2012
Abstract :
PubMedSearch : Alout_2012_PLoS.One_7_e47125
PubMedID: 23056599
Gene_locus related to this paper: anoga-ACHE1

Title : Combination of measures distinguishes pre-miRNAs from other stem-loops in the genome of the newly sequenced Anopheles darlingi - Mendes_2010_BMC.Genomics_11_529
Author(s) : Mendes ND , Freitas AT , Vasconcelos AT , Sagot MF
Ref : BMC Genomics , 11 :529 , 2010
Abstract :
PubMedSearch : Mendes_2010_BMC.Genomics_11_529
PubMedID: 20920257
Gene_locus related to this paper: anoda-e3wjh1 , anoda-e3wjl8 , anoda-e3wmw1 , anoda-e3wnr0 , anoda-e3wny2 , anoda-e3wt51 , anoda-e3wuw3 , anoda-e3ww17 , anoda-e3x0b8 , anoda-e3x0s6 , anoda-e3x7r9 , anoda-e3x8n8 , anoda-e3x8s2 , anoda-e3x331 , anoda-e3x761 , anoda-e3xaj7 , anoda-e3xbp8 , anoda-e3xc97 , anoga-ACHE1 , anoga-Q7PVF9 , anoda-w5jb39 , anoda-x1ybz1 , anoda-w5jx39 , anoda-w5jax6 , anoda-w5jct8.1 , anoda-w5jct8.2 , anoda-w5jih3 , anoda-w5jd44 , anoda-w5j5b7 , anoda-w5jp00 , anoda-w5jj54 , anoda-w5jer7 , anoda-w5j5x4 , anoda-w5j5h2 , anoda-w5jfj7 , anoda-w5jsg7 , anoda-w5jdv1 , anoda-w5jfe0 , anoda-w5jj80 , anoda-w5jun9 , anoda-w5jal2 , anoda-w5jq87 , anoda-w5ju32 , anoda-w5jul4 , anoda-w5j487 , anoda-w5j7k8 , anoda-w5j8z2 , anoda-w5jnz8 , anoda-w5j9s8 , anoda-w5j8n2 , anoda-w5jn33 , anoda-w5j900 , anoda-w5jty7 , anoda-w5jks5 , anoda-w5jli1 , anoga-q7q887

Title : Development of high-throughput real-time PCR assays for the identification of insensitive acetylcholinesterase (ace-1R) in Anopheles gambiae - Bass_2010_Pestic.Biochem.Physiol_96_80
Author(s) : Bass C , Nikou D , Vontas J , Williamson MS , Field LM
Ref : Pesticide Biochemistry and Physiology , 96 :80 , 2010
Abstract :
PubMedSearch : Bass_2010_Pestic.Biochem.Physiol_96_80
PubMedID:
Gene_locus related to this paper: anoga-ACHE1

Title : Distribution of ace-1R and resistance to carbamates and organophosphates in Anopheles gambiae s.s. populations from Cote d'Ivoire - Ahoua_2010_Malar.J_9_167
Author(s) : Ahoua Alou LP , Koffi AA , Adja MA , Tia E , Kouassi PK , Kone M , Chandre F
Ref : Malar J , 9 :167 , 2010
Abstract :
PubMedSearch : Ahoua_2010_Malar.J_9_167
PubMedID: 20553593
Gene_locus related to this paper: anoga-ACHE1

Title : Recombinant expression and biochemical characterization of the catalytic domain of acetylcholinesterase-1 from the African malaria mosquito, Anopheles gambiae - Jiang_2009_Insect.Biochem.Mol.Biol_39_646
Author(s) : Jiang H , Liu S , Zhao P , Pope C
Ref : Insect Biochemistry & Molecular Biology , 39 :646 , 2009
Abstract :
PubMedSearch : Jiang_2009_Insect.Biochem.Mol.Biol_39_646
PubMedID: 19607916
Gene_locus related to this paper: anoga-ACHE1

Title : Ace-1 duplication in Anopheles gambiae: a challenge for malaria control - Djogbenou_2009_Malar.J_8_70
Author(s) : Djogbenou L , Labbe P , Chandre F , Pasteur N , Weill M
Ref : Malar J , 8 :70 , 2009
Abstract :
PubMedSearch : Djogbenou_2009_Malar.J_8_70
PubMedID: 19374767
Gene_locus related to this paper: anoga-ACHE1

Title : Towards a species-selective acetylcholinesterase inhibitor to control the mosquito vector of malaria, Anopheles gambiae - Carlier_2008_Chem.Biol.Interact_175_368
Author(s) : Carlier PR , Anderson TD , Wong DM , Hsu DC , Hartsel J , Ma M , Wong EA , Choudhury R , Lam PC , Totrov MM , Bloomquist JR
Ref : Chemico-Biological Interactions , 175 :368 , 2008
Abstract :
PubMedSearch : Carlier_2008_Chem.Biol.Interact_175_368
PubMedID: 18554580
Gene_locus related to this paper: anoga-ACHE1

Title : Characterization of insensitive acetylcholinesterase (ace-1R) in Anopheles gambiae (Diptera: Culicidae): resistance levels and dominance - Djogbenou_2007_J.Med.Entomol_44_805
Author(s) : Djogbenou L , Weill M , Hougard JM , Raymond M , Akogbeto M , Chandre F
Ref : Journal of Medical Entomology , 44 :805 , 2007
Abstract :
PubMedSearch : Djogbenou_2007_J.Med.Entomol_44_805
PubMedID: 17915512
Gene_locus related to this paper: anoga-ACHE1

Title : The unique mutation in ace-1 giving high insecticide resistance is easily detectable in mosquito vectors - Weill_2004_Insect.Mol.Biol_13_1
Author(s) : Weill M , Malcolm C , Chandre F , Mogensen K , Berthomieu A , Marquine M , Raymond M
Ref : Insect Molecular Biology , 13 :1 , 2004
Abstract :
PubMedSearch : Weill_2004_Insect.Mol.Biol_13_1
PubMedID: 14728661
Gene_locus related to this paper: anoga-ACHE1 , culpi-ACHE1

Title : Comparative genomics: Insecticide resistance in mosquito vectors - Weill_2003_Nature_423_136
Author(s) : Weill M , Lutfalla G , Mogensen K , Chandre F , Berthomieu A , Berticat C , Pasteur N , Philips A , Fort P , Raymond M
Ref : Nature , 423 :136 , 2003
Abstract :
PubMedSearch : Weill_2003_Nature_423_136
PubMedID: 12736674
Gene_locus related to this paper: anoga-ACHE1 , culpi-ACHE1

Title : A novel acetylcholinesterase gene in mosquitoes codes for the insecticide target and is non-homologous to the ace gene Drosophila - Weill_2002_Proc.R.Soc.Lond.B.Biol.Sci_269_2007
Author(s) : Weill M , Fort P , Berthomieu A , Dubois MP , Pasteur N , Raymond M
Ref : Proc R Soc Lond B Biol Sci , 269 :2007 , 2002
Abstract :
PubMedSearch : Weill_2002_Proc.R.Soc.Lond.B.Biol.Sci_269_2007
PubMedID: 12396499
Gene_locus related to this paper: aedae-ACHE1 , anoga-ACHE1 , anoga-ACHE2 , cioin-ACHE1 , ciosa-ACHE , culpi-ACHE1

Title : The genome sequence of the malaria mosquito Anopheles gambiae - Holt_2002_Science_298_129
Author(s) : Holt RA , Subramanian GM , Halpern A , Sutton GG , Charlab R , Nusskern DR , Wincker P , Clark AG , Ribeiro JM , Wides R , Salzberg SL , Loftus B , Yandell M , Majoros WH , Rusch DB , Lai Z , Kraft CL , Abril JF , Anthouard V , Arensburger P , Atkinson PW , Baden H , de Berardinis V , Baldwin D , Benes V , Biedler J , Blass C , Bolanos R , Boscus D , Barnstead M , Cai S , Center A , Chaturverdi K , Christophides GK , Chrystal MA , Clamp M , Cravchik A , Curwen V , Dana A , Delcher A , Dew I , Evans CA , Flanigan M , Grundschober-Freimoser A , Friedli L , Gu Z , Guan P , Guigo R , Hillenmeyer ME , Hladun SL , Hogan JR , Hong YS , Hoover J , Jaillon O , Ke Z , Kodira C , Kokoza E , Koutsos A , Letunic I , Levitsky A , Liang Y , Lin JJ , Lobo NF , Lopez JR , Malek JA , McIntosh TC , Meister S , Miller J , Mobarry C , Mongin E , Murphy SD , O'Brochta DA , Pfannkoch C , Qi R , Regier MA , Remington K , Shao H , Sharakhova MV , Sitter CD , Shetty J , Smith TJ , Strong R , Sun J , Thomasova D , Ton LQ , Topalis P , Tu Z , Unger MF , Walenz B , Wang A , Wang J , Wang M , Wang X , Woodford KJ , Wortman JR , Wu M , Yao A , Zdobnov EM , Zhang H , Zhao Q , Zhao S , Zhu SC , Zhimulev I , Coluzzi M , della Torre A , Roth CW , Louis C , Kalush F , Mural RJ , Myers EW , Adams MD , Smith HO , Broder S , Gardner MJ , Fraser CM , Birney E , Bork P , Brey PT , Venter JC , Weissenbach J , Kafatos FC , Collins FH , Hoffman SL
Ref : Science , 298 :129 , 2002
Abstract :
PubMedSearch : Holt_2002_Science_298_129
PubMedID: 12364791
Gene_locus related to this paper: anoga-a0nb77 , anoga-a0nbp6 , anoga-a0neb7 , anoga-a0nei9 , anoga-a0nej0 , anoga-a0ngj1 , anoga-a7ut12 , anoga-a7uuz9 , anoga-ACHE1 , anoga-ACHE2 , anoga-agCG44620 , anoga-agCG44666 , anoga-agCG45273 , anoga-agCG45279 , anoga-agCG45511 , anoga-agCG46741 , anoga-agCG47651 , anoga-agCG47655 , anoga-agCG47661 , anoga-agCG47690 , anoga-agCG48797 , anoga-AGCG49362 , anoga-agCG49462 , anoga-agCG49870 , anoga-agCG49872 , anoga-agCG49876 , anoga-agCG50851 , anoga-agCG51879 , anoga-agCG52383 , anoga-agCG54954 , anoga-AGCG55021 , anoga-agCG55401 , anoga-agCG55408 , anoga-agCG56978 , anoga-ebiG239 , anoga-ebiG2660 , anoga-ebiG5718 , anoga-ebiG5974 , anoga-ebiG8504 , anoga-ebiG8742 , anoga-glita , anoga-nrtac , anoga-q5tpv0 , anoga-Q5TVS6 , anoga-q7pm39 , anoga-q7ppw9 , anoga-q7pq17 , anoga-Q7PQT0 , anoga-q7q8m4 , anoga-q7q626 , anoga-q7qa14 , anoga-q7qa52 , anoga-q7qal7 , anoga-q7qbj0 , anoga-f5hl20 , anoga-q7qkh2 , anoga-a0a1s4h1y7 , anoga-q7q887