%D8%AA%D8%B7%D9%88%D8%B1_%D9%85%D8%B4%D8%AA%D8%B1%D9%83%E0%A6%B8%E0%A6%B9%E0%A6%AC%E0%A6%BF%E0%A6%AC%E0%A6%B0%E0%A7%8D%E0%A6%A4%E0%A6%A8KoevolucijaCoevoluci%C3%B3KoevoluceKoevolution%CE%A3%CF%85%CE%BD%CE%B5%CE%BE%CE%AD%CE%BB%CE%B9%CE%BE%CE%B7CoevolutionCoevoluci%C3%B3nKoevolutsioonKoeboluzio%D9%87%D9%85%E2%80%8C%D9%81%D8%B1%DA%AF%D8%B4%D8%AA%DB%8CKoevoluutioCo%C3%A9volutionCoevoluci%C3%B3n%D7%A7%D7%95-%D7%90%D7%91%D7%95%D7%9C%D7%95%D7%A6%D7%99%D7%94Koevol%C3%BAci%C3%B3KoevolusiCoevoluzione%E5%85%B1%E9%80%B2%E5%8C%96%EA%B3%B5%EC%A7%84%ED%99%94%D0%9A%D0%BE%D1%8D%D0%B2%D0%BE%D0%BB%D1%8E%D1%86%D0%B8%D1%8F%D0%9A%D0%BE%D0%B5%D0%B2%D0%BE%D0%BB%D1%83%D1%86%D0%B8%D1%98%D0%B0Co-evolutieKoevolusjonKoevolusjonKoewolucjaCoevolu%C3%A7%C3%A3oCoevolu%C8%9Bie%D0%9A%D0%BE%D1%8D%D0%B2%D0%BE%D0%BB%D1%8E%D1%86%D0%B8%D1%8FKoevolucijaCoevolutionKoevolucija%D0%9A%D0%BE%D0%B5%D0%B2%D0%BE%D0%BB%D1%83%D1%86%D0%B8%D1%98%D0%B0SamevolutionBirlikte_evrim%D0%9A%D0%BE%D0%B5%D0%B2%D0%BE%D0%BB%D1%8E%D1%86%D1%96%D1%8FQ208841%E5%85%B1%E5%90%8C%E6%BC%94%E5%8C%96
about
Coevolution of male and female genital morphology in waterfowlDescription of an early Cretaceous termite (Isoptera: Kalotermitidae) and its associated intestinal protozoa, with comments on their co-evolutionVirus-host co-evolution under a modified nuclear genetic codeSequence co-evolution gives 3D contacts and structures of protein complexesLineage-specific expansion of IFIT gene family: an insight into coevolution with IFN gene familyResource competition triggers the co-evolution of long tongues and deep corolla tubesContrasting patterns in mammal-bacteria coevolution: bartonella and leptospira in bats and rodentsHost-Pathogen Coevolution: The Selective Advantage of Bacillus thuringiensis Virulence and Its Cry Toxin GenesPhenotypic mismatches reveal escape from arms-race coevolution.Mesozoic fossils (>145 Mya) suggest the antiquity of the subgenera of Daphnia and their coevolution with chaoborid predatorsOrigin of the cell nucleus, mitosis and sex: roles of intracellular coevolutionIndication for Co-evolution of Lactobacillus johnsonii with its hostsShooting darts: co-evolution and counter-adaptation in hermaphroditic snails.New insights into ligand-receptor pairing and coevolution of relaxin family peptides and their receptors in teleostsOngoing phenotypic and genomic changes in experimental coevolution of RNA bacteriophage Qβ and Escherichia coliDisentangling direct from indirect co-evolution of residues in protein alignmentsThe Chlorella variabilis NC64A genome reveals adaptation to photosymbiosis, coevolution with viruses, and cryptic sexThe co-evolutionary genetics of ecological communitiesGene-culture coevolution between cattle milk protein genes and human lactase genesCloning, characterization, and phylogenetic analysis of siglec-9, a new member of the CD33-related group of siglecs. Evidence for co-evolution with sialic acid synthesis pathwaysMolecular coevolution of mammalian ribosomal gene terminator sequences and the transcription termination factor TTF-ICoevolution of the spexin/galanin/kisspeptin family: Spexin activates galanin receptor type II and IIIcDNA sequence of a human skeletal muscle ADP/ATP translocator: lack of a leader peptide, divergence from a fibroblast translocator cDNA, and coevolution with mitochondrial DNA genesVirus-host coevolution: common patterns of nucleotide motif usage in Flaviviridae and their hostsCritical review of host specificity and its coevolutionary implications in the fig/fig-wasp mutualismPhylogeny of Pneumocystis carinii from 18 primate species confirms host specificity and suggests coevolutionCryptic sex and many-to-one coevolution in the fungus-growing ant symbiosisFeedbacks and the coevolution of plants and atmospheric CO2Monophyletic origin of beta-division proteobacterial endosymbionts and their coevolution with insect trypanosomatid protozoa Blastocrithidia culicis and Crithidia sppNinety-seven million years of angiosperm-insect association: paleobiological insights into the meaning of coevolutionCoevolution of genes and languages revisitedOxidative stress in cancer associated fibroblasts drives tumor-stroma co-evolution: A new paradigm for understanding tumor metabolism, the field effect and genomic instability in cancer cellsUnderstanding the "lethal" drivers of tumor-stroma co-evolution: emerging role(s) for hypoxia, oxidative stress and autophagy/mitophagy in the tumor micro-environmentMultiple reciprocal adaptations and rapid genetic change upon experimental coevolution of an animal host and its microbial parasiteThe spider Harpactea sadistica: co-evolution of traumatic insemination and complex female genital morphology in spidersDirect-coupling analysis of residue coevolution captures native contacts across many protein familiesRunning with the Red Queen: host-parasite coevolution selects for biparental sexCoevolution of retroelements and tandem zinc finger genesBacterial antigenic variation, host immune response, and pathogen-host coevolutionCoevolution of diet and prey-specific venom activity supports the role of selection in snake venom evolution
P921
Q21090115-E1BB4A2D-4828-4FD4-B53C-01865699F9B5Q21092932-0679C182-1D64-415C-99CF-A5E2B2F39FA0Q21128718-9FB2E37E-97A6-4C46-8D3E-EC899397A5C6Q21128770-35D08FEE-8D26-4852-9ACC-93619E6ACE93Q21133007-9456F96D-5C82-4FD7-880F-A35593134D0EQ21144250-1C4F8D2C-9E2A-48F5-87FE-2F684A356B8FQ21144481-64775CD2-E19C-465C-86F8-52654FC324DBQ21145699-ABEFA353-6330-41D7-BF66-149FD31993ECQ21145882-A62902A9-FCA3-40EB-9351-14E015ACE27FQ21192767-C07811EA-D4C2-4F10-A4F6-A74BF3D8E58BQ21203755-56CCA566-DB44-4F43-80FC-930BAC4178EFQ21263105-1A35C3C9-20A5-4A16-B0DE-14547F9DB122Q21283969-B1D8D7EB-1778-4758-A2EB-FC023CEEA3F6Q21296667-614BCD92-4347-4F0A-96E4-47FDA0086333Q21563384-51C18D1F-BEC6-4673-8BC8-090BD989B6F5Q21563484-845079E3-DF45-4770-AC6A-3030DF385327Q22065724-410CEA91-2167-42F2-BCAA-DC4027CEF993Q22122014-9584261F-6155-47DC-8C78-0555532C23ADQ22122052-B9179A5E-6A80-4CC2-8811-3962C37F2D71Q22254056-FD59485B-C68C-4BD8-96DD-87A1A11552BAQ24317004-E21AFF37-C38F-4971-974B-0ED7DBB160E6Q24336866-A1F1B14E-BF2B-4A61-820B-67229E814AF9Q24339629-F80ADAA7-AD57-44C1-9D4E-87ACD22BB7DEQ24498559-B8694EDB-713E-4D4D-8DEC-CE97C6657B94Q24527372-90092E4C-611A-4051-8869-93BFC3E03381Q24550815-4DBD5FE8-56B1-48DF-A599-D9EE03CD57DAQ24550928-E40FF27E-9F46-4364-BB6C-29805EE8B66CQ24557136-8BAF86DF-8334-4FB0-BD92-C36A8420A2DAQ24564099-C8B762FF-C0E6-4F3F-9BDA-8F91B0A5D6DEQ24564423-20A2E866-E4DC-412F-AC84-82EEBED1F90DQ24564829-7F3B7FB3-DA87-4C9F-BB29-499DCAF02671Q24619475-044657BC-41A2-4364-8AE8-8E619164E11FQ24620228-C152D8CB-4389-4A9F-9C22-BF100E9FA523Q24623000-C49CDD7D-16F2-4A14-9EAD-0CD47BAC5F18Q24626421-9FC5553D-87F0-4857-B97D-ED11E63977E0Q24627074-07D5795E-E4FF-4F48-9696-A906508D363CQ24630269-79174481-C1DC-49F9-AC4D-4494AD802CC6Q24632903-027750E5-1E21-40E1-82D0-62F6D1967975Q24645161-59A1A22F-02B6-4813-8BE7-3EE4E55E1905Q24651189-4B345517-C25A-4D90-8EB0-B46D4EBB1E8A
P921
description
Evolutionäre Anpassung zweier Arten in Abhängigkeit zueinander
@de
concept biologique
@fr
concepto de la biología por el ...... da entre dos o varias especies
@es
samtidig evolusjon av to eller flere arter
@nb
two or more species evolving together
@en
تأثیر دو یا چند گونه جانوری بر روی فرگشت یکدیگر
@fa
name
Koevolution
@de
birlikte evrim
@tr
co-evolutie
@nl
co-evolution
@en
coevolució
@ca
coevolución
@es
coevolución
@gl
coevoluzione
@it
coevolução
@pt
coevoluție
@ro
type
label
Koevolution
@de
birlikte evrim
@tr
co-evolutie
@nl
co-evolution
@en
coevolució
@ca
coevolución
@es
coevolución
@gl
coevoluzione
@it
coevolução
@pt
coevoluție
@ro
altLabel
Co-evolució
@ca
Co-evolução
@pt
Coevolution
@de
Eş evrim
@tr
Eş-evrim
@tr
Ko-Evolution
@de
Relations prédateurs-proies
@fr
Rinnakkaisevoluutio
@fi
co-évolution
@fr
coevolution
@en
prefLabel
Koevolution
@de
birlikte evrim
@tr
co-evolutie
@nl
co-evolution
@en
coevolució
@ca
coevolución
@es
coevolución
@gl
coevoluzione
@it
coevolução
@pt
coevoluție
@ro
P6366
P646
P1417
science/coevolution
P2924
P31
P3827
coevolution