YEAST:IPL1

Species (Taxon ID)	Saccharomyces cerevisiae (strain ATCC 204508 / S288c) (Baker's yeast). (559292)
Gene Name(s)	IPL1
Protein Name(s)	Spindle assembly checkpoint kinase Aurora kinase Increase-in-ploidy protein 1
External Links
UniProt	P38991
EMBL	U07163 Z73565 AY693182 BK006949
PIR	S47923
RefSeq	NP_015115.1
ProteinModelPortal	P38991
SMR	P38991
BioGrid	35976
DIP	DIP-2771N
IntAct	P38991
MINT	MINT-1706398
STRING	4932.YPL209C
iPTMnet	P38991
MaxQB	P38991
PRIDE	P38991
EnsemblFungi	YPL209C
GeneID	855892
KEGG	sce:YPL209C
EuPathDB	FungiDB:YPL209C
SGD	S000006130
GeneTree	ENSGT00870000136439
HOGENOM	HOG000233016
InParanoid	P38991
KO	K08850
OMA	QATSVPH
OrthoDB	EOG092C0QJU
BioCyc	YEAST:G3O-34100-MONOMER
BRENDA	2.7.11.1
Reactome	[www.reactome.org/content/detail/R-SCE-8854050 R-SCE-8854050]
PRO	PR:P38991
Proteomes	UP000002311
GO	GO:0032133 GO:0000778 GO:0005737 GO:0005828 GO:0005819 GO:0005876 GO:0051233 GO:0005524 GO:0035174 GO:0004672 GO:0008608 GO:0007059 GO:0045143 GO:0045144 GO:0044774 GO:0051228 GO:1901925 GO:0018105 GO:0006468 GO:0032465 GO:0090266 GO:1901673
InterPro	IPR030616 IPR011009 IPR000719 IPR017441 IPR008271
PANTHER	PTHR24350
Pfam	PF00069
SMART	SM00220
SUPFAM	SSF56112
PROSITE	PS00107 PS50011 PS00108

Annotations

Qualifier	GO ID	GO term name	Reference	ECO ID	ECO term name	with/from	Aspect	Extension	Notes	Status
	GO:0018105	peptidyl-serine phosphorylation	PMID:24558497^[1]	ECO:0000314			P		Table 4 shows phosphorylation sites for Ipl1 phosphorylation sites in Sli15. In this case, Peptidyl-serine phosphorylation is observed. Organism: S. cerevisiae	complete CACAO 12969
	GO:0018107	peptidyl-threonine phosphorylation	PMID:24558497^[1]	ECO:0000314			P		Table 4 shows phosphorylation sites for Ipl1 phosphorylation sites in Sli15. Thus, in this case, Peptidyl-threonine phosphorylation is observed. Organism: S. cerevisiae	complete CACAO 12970
part_of	GO:0005737	cytoplasm	PMID:22842922^[2]	ECO:0007005	high throughput direct assay evidence used in manual assertion		C		Seeded From UniProt	complete
part_of	GO:0005874	microtubule	PMID:22842922^[2]	ECO:0007005	high throughput direct assay evidence used in manual assertion		C		Seeded From UniProt	complete
part_of	GO:0005634	nucleus	PMID:22842922^[2]	ECO:0007005	high throughput direct assay evidence used in manual assertion		C		Seeded From UniProt	complete
enables	GO:0004672	protein kinase activity	PMID:16319894^[3]	ECO:0007005	high throughput direct assay evidence used in manual assertion		F		Seeded From UniProt	complete
involved_in	GO:0006468	protein phosphorylation	PMID:14581449^[4]	ECO:0000315	mutant phenotype evidence used in manual assertion		P	has_input:(UniProtKB:P35201)\|has_input:(UniProtKB:P40568)	Seeded From UniProt	complete
involved_in	GO:0006468	protein phosphorylation	PMID:16319894^[3]	ECO:0007005	high throughput direct assay evidence used in manual assertion		P		Seeded From UniProt	complete
enables	GO:0004672	protein kinase activity	PMID:25387524^[5]	ECO:0000314	direct assay evidence used in manual assertion		F	has_direct_input:(UniProtKB:P32797)	Seeded From UniProt	complete
involved_in	GO:0018105	peptidyl-serine phosphorylation	PMID:25387524^[5]	ECO:0000315	mutant phenotype evidence used in manual assertion		P	happens_during:(GO:0000086) has_direct_input:(UniProtKB:P32797)	Seeded From UniProt	complete
involved_in	GO:1901673	regulation of mitotic spindle assembly	PMID:24386320^[6]	ECO:0000315	mutant phenotype evidence used in manual assertion		P		Seeded From UniProt	complete
involved_in	GO:1901925	negative regulation of protein import into nucleus during spindle assembly checkpoint	PMID:23177738^[7]	ECO:0000315	mutant phenotype evidence used in manual assertion		P		Seeded From UniProt	complete
involved_in	GO:0090266	regulation of mitotic cell cycle spindle assembly checkpoint	PMID:16327780^[8]	ECO:0000315	mutant phenotype evidence used in manual assertion		P		Seeded From UniProt	complete
part_of	GO:0051233	spindle midzone	PMID:12566427^[9]	ECO:0000314	direct assay evidence used in manual assertion		C		Seeded From UniProt	complete
involved_in	GO:0051228	mitotic spindle disassembly	PMID:12566427^[9]	ECO:0000315	mutant phenotype evidence used in manual assertion		P		Seeded From UniProt	complete
involved_in	GO:0045144	meiotic sister chromatid segregation	PMID:17371833^[10]	ECO:0000315	mutant phenotype evidence used in manual assertion		P		Seeded From UniProt	complete
involved_in	GO:0045144	meiotic sister chromatid segregation	PMID:17289568^[11]	ECO:0000315	mutant phenotype evidence used in manual assertion		P		Seeded From UniProt	complete
involved_in	GO:0045143	homologous chromosome segregation	PMID:17289568^[11]	ECO:0000315	mutant phenotype evidence used in manual assertion		P		Seeded From UniProt	complete
involved_in	GO:0044774	mitotic DNA integrity checkpoint	PMID:16651657^[12]	ECO:0000316	genetic interaction evidence used in manual assertion	SGD:S000005032	P		Seeded From UniProt	complete
involved_in	GO:0032465	regulation of cytokinesis	PMID:16615892^[13]	ECO:0000315	mutant phenotype evidence used in manual assertion		P		Seeded From UniProt	complete
part_of	GO:0032133	chromosome passenger complex	PMID:19158380^[14]	ECO:0000314	direct assay evidence used in manual assertion		C		Seeded From UniProt	complete
involved_in	GO:0008608	attachment of spindle microtubules to kinetochore	PMID:10072382^[15]	ECO:0000315	mutant phenotype evidence used in manual assertion		P		Seeded From UniProt	complete
involved_in	GO:0007059	chromosome segregation	PMID:8293973^[16]	ECO:0000315	mutant phenotype evidence used in manual assertion		P		Seeded From UniProt	complete
involved_in	GO:0006468	protein phosphorylation	PMID:17504936^[17]	ECO:0000315	mutant phenotype evidence used in manual assertion		P		Seeded From UniProt	complete
involved_in	GO:0006468	protein phosphorylation	PMID:17504936^[17]	ECO:0000314	direct assay evidence used in manual assertion		P		Seeded From UniProt	complete
involved_in	GO:0006468	protein phosphorylation	PMID:23142046^[18]	ECO:0000314	direct assay evidence used in manual assertion		P		Seeded From UniProt	complete
part_of	GO:0005876	spindle microtubule	PMID:11511347^[19]	ECO:0000314	direct assay evidence used in manual assertion		C		Seeded From UniProt	complete
part_of	GO:0005876	spindle microtubule	PMID:11724818^[20]	ECO:0000314	direct assay evidence used in manual assertion		C		Seeded From UniProt	complete
part_of	GO:0005828	kinetochore microtubule	PMID:11724818^[20]	ECO:0000314	direct assay evidence used in manual assertion		C		Seeded From UniProt	complete
part_of	GO:0005819	spindle	PMID:12566427^[9]	ECO:0000314	direct assay evidence used in manual assertion		C		Seeded From UniProt	complete
enables	GO:0004672	protein kinase activity	PMID:16143104^[21]	ECO:0000314	direct assay evidence used in manual assertion		F		Seeded From UniProt	complete
enables	GO:0004672	protein kinase activity	PMID:10072382^[15]	ECO:0000314	direct assay evidence used in manual assertion		F		Seeded From UniProt	complete
enables	GO:0004672	protein kinase activity	PMID:23142046^[18]	ECO:0000314	direct assay evidence used in manual assertion		F		Seeded From UniProt	complete
part_of	GO:0000778	condensed nuclear chromosome kinetochore	PMID:11511347^[19]	ECO:0000314	direct assay evidence used in manual assertion		C		Seeded From UniProt	complete
part_of	GO:0000778	condensed nuclear chromosome kinetochore	PMID:12566427^[9]	ECO:0000314	direct assay evidence used in manual assertion		C		Seeded From UniProt	complete
part_of	GO:0051233	spindle midzone	PMID:21873635^[22]	ECO:0000318	biological aspect of ancestor evidence used in manual assertion	FB:FBgn0024227 PANTHER:PTN000681967 SGD:S000006130 UniProtKB:Q9UQB9 WB:WBGene00000099 dictyBase:DDB_G0279343	C		Seeded From UniProt	complete
enables	GO:0035174	histone serine kinase activity	PMID:21873635^[22]	ECO:0000318	biological aspect of ancestor evidence used in manual assertion	MGI:MGI:107168 MGI:MGI:894678 PANTHER:PTN000681967	F		Seeded From UniProt	complete
involved_in	GO:0032465	regulation of cytokinesis	PMID:21873635^[22]	ECO:0000318	biological aspect of ancestor evidence used in manual assertion	PANTHER:PTN000681967 SGD:S000006130	P		Seeded From UniProt	complete
part_of	GO:0032133	chromosome passenger complex	PMID:21873635^[22]	ECO:0000318	biological aspect of ancestor evidence used in manual assertion	FB:FBgn0024227 MGI:MGI:107168 PANTHER:PTN000681967 PomBase:SPCC320.13c SGD:S000006130 UniProtKB:Q96GD4 dictyBase:DDB_G0279343	C		Seeded From UniProt	complete
part_of	GO:0031616	spindle pole centrosome	PMID:21873635^[22]	ECO:0000318	biological aspect of ancestor evidence used in manual assertion	PANTHER:PTN000681967 UniProtKB:O14965 WB:WBGene00000098	C		Seeded From UniProt	complete
involved_in	GO:0007052	mitotic spindle organization	PMID:21873635^[22]	ECO:0000318	biological aspect of ancestor evidence used in manual assertion	MGI:MGI:894678 PANTHER:PTN000681967	P		Seeded From UniProt	complete
part_of	GO:0005876	spindle microtubule	PMID:21873635^[22]	ECO:0000318	biological aspect of ancestor evidence used in manual assertion	PANTHER:PTN000681967 SGD:S000006130 UniProtKB:O14965	C		Seeded From UniProt	complete
part_of	GO:0000780	condensed nuclear chromosome, centromeric region	PMID:21873635^[22]	ECO:0000318	biological aspect of ancestor evidence used in manual assertion	FB:FBgn0024227 MGI:MGI:107168 PANTHER:PTN000681967 UniProtKB:Q96GD4	C		Seeded From UniProt	complete
involved_in	GO:0035404	histone-serine phosphorylation	GO_REF:0000108	ECO:0000364	evidence based on logical inference from manual annotation used in automatic assertion	GO:0035174	P		Seeded From UniProt	complete
enables	GO:0004672	protein kinase activity	GO_REF:0000002	ECO:0000256	match to sequence model evidence used in automatic assertion	InterPro:IPR000719 InterPro:IPR008271 InterPro:IPR030616	F		Seeded From UniProt	complete
enables	GO:0005524	ATP binding	GO_REF:0000002	ECO:0000256	match to sequence model evidence used in automatic assertion	InterPro:IPR000719 InterPro:IPR017441	F		Seeded From UniProt	complete
involved_in	GO:0006468	protein phosphorylation	GO_REF:0000002	ECO:0000256	match to sequence model evidence used in automatic assertion	InterPro:IPR000719 InterPro:IPR008271	P		Seeded From UniProt	complete
involved_in	GO:0007059	chromosome segregation	GO_REF:0000037	ECO:0000322	imported manually asserted information used in automatic assertion	UniProtKB-KW:KW-0159	P		Seeded From UniProt	complete
enables	GO:0004674	protein serine/threonine kinase activity	GO_REF:0000037	ECO:0000322	imported manually asserted information used in automatic assertion	UniProtKB-KW:KW-0723	F		Seeded From UniProt	complete
enables	GO:0005524	ATP binding	GO_REF:0000037	ECO:0000322	imported manually asserted information used in automatic assertion	UniProtKB-KW:KW-0067	F		Seeded From UniProt	complete
enables	GO:0016301	kinase activity	GO_REF:0000037	ECO:0000322	imported manually asserted information used in automatic assertion	UniProtKB-KW:KW-0418	F		Seeded From UniProt	complete
involved_in	GO:0007049	cell cycle	GO_REF:0000037	ECO:0000322	imported manually asserted information used in automatic assertion	UniProtKB-KW:KW-0131	P		Seeded From UniProt	complete
involved_in	GO:0016310	phosphorylation	GO_REF:0000037	ECO:0000322	imported manually asserted information used in automatic assertion	UniProtKB-KW:KW-0418	P		Seeded From UniProt	complete
enables	GO:0016740	transferase activity	GO_REF:0000037	ECO:0000322	imported manually asserted information used in automatic assertion	UniProtKB-KW:KW-0808	F		Seeded From UniProt	complete
part_of	GO:0005856	cytoskeleton	GO_REF:0000037	ECO:0000322	imported manually asserted information used in automatic assertion	UniProtKB-KW:KW-0206	C		Seeded From UniProt	complete
enables	GO:0000166	nucleotide binding	GO_REF:0000037	ECO:0000322	imported manually asserted information used in automatic assertion	UniProtKB-KW:KW-0547	F		Seeded From UniProt	complete
part_of	GO:0000775	chromosome, centromeric region	GO_REF:0000037	ECO:0000322	imported manually asserted information used in automatic assertion	UniProtKB-KW:KW-0137	C		Seeded From UniProt	complete
part_of	GO:0000776	kinetochore	GO_REF:0000037	ECO:0000322	imported manually asserted information used in automatic assertion	UniProtKB-KW:KW-0995	C		Seeded From UniProt	complete
part_of	GO:0005694	chromosome	GO_REF:0000037	ECO:0000322	imported manually asserted information used in automatic assertion	UniProtKB-KW:KW-0158	C		Seeded From UniProt	complete
part_of	GO:0005634	nucleus	GO_REF:0000037 GO_REF:0000039	ECO:0000322	imported manually asserted information used in automatic assertion	UniProtKB-KW:KW-0539 UniProtKB-SubCell:SL-0191	C		Seeded From UniProt	complete
part_of	GO:0005737	cytoplasm	GO_REF:0000037	ECO:0000322	imported manually asserted information used in automatic assertion	UniProtKB-KW:KW-0963	C		Seeded From UniProt	complete
part_of	GO:0005819	spindle	GO_REF:0000039	ECO:0000322	imported manually asserted information used in automatic assertion	UniProtKB-SubCell:SL-0251	C		Seeded From UniProt	complete
part_of	GO:0000777	condensed chromosome kinetochore	GO_REF:0000039	ECO:0000322	imported manually asserted information used in automatic assertion	UniProtKB-SubCell:SL-0149	C		Seeded From UniProt	complete
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Notes

References

See Help:References for how to manage references in GONUTS.

↑ ^1.0 ^1.1 Makrantoni, V et al. (2014) Phosphorylation of Sli15 by Ipl1 is important for proper CPC localization and chromosome stability in Saccharomyces cerevisiae. PLoS ONE 9 e89399 PubMed GONUTS page
↑ ^2.0 ^2.1 ^2.2 Tkach, JM et al. (2012) Dissecting DNA damage response pathways by analysing protein localization and abundance changes during DNA replication stress. Nat. Cell Biol. 14 966-76 PubMed GONUTS page
↑ ^3.0 ^3.1 Ptacek, J et al. (2005) Global analysis of protein phosphorylation in yeast. Nature 438 679-84 PubMed GONUTS page
↑ Westermann, S et al. (2003) Architecture of the budding yeast kinetochore reveals a conserved molecular core. J. Cell Biol. 163 215-22 PubMed GONUTS page
↑ ^5.0 ^5.1 Shen, ZJ et al. (2014) PP2A and Aurora differentially modify Cdc13 to promote telomerase release from telomeres at G2/M phase. Nat Commun 5 5312 PubMed GONUTS page
↑ Newnham, L et al. (2013) Ipl1/Aurora kinase suppresses S-CDK-driven spindle formation during prophase I to ensure chromosome integrity during meiosis. PLoS ONE 8 e83982 PubMed GONUTS page
↑ Cairo, LV et al. (2013) Mitosis-specific regulation of nuclear transport by the spindle assembly checkpoint protein Mad1p. Mol. Cell 49 109-20 PubMed GONUTS page
↑ Pinsky, BA et al. (2006) The Ipl1-Aurora protein kinase activates the spindle checkpoint by creating unattached kinetochores. Nat. Cell Biol. 8 78-83 PubMed GONUTS page
↑ ^9.0 ^9.1 ^9.2 ^9.3 Buvelot, S et al. (2003) The budding yeast Ipl1/Aurora protein kinase regulates mitotic spindle disassembly. J. Cell Biol. 160 329-39 PubMed GONUTS page
↑ Yu, HG & Koshland, D (2007) The Aurora kinase Ipl1 maintains the centromeric localization of PP2A to protect cohesin during meiosis. J. Cell Biol. 176 911-8 PubMed GONUTS page
↑ ^11.0 ^11.1 Monje-Casas, F et al. (2007) Kinetochore orientation during meiosis is controlled by Aurora B and the monopolin complex. Cell 128 477-90 PubMed GONUTS page
↑ Andrews, CA et al. (2006) A mitotic topoisomerase II checkpoint in budding yeast is required for genome stability but acts independently of Pds1/securin. Genes Dev. 20 1162-74 PubMed GONUTS page
↑ Norden, C et al. (2006) The NoCut pathway links completion of cytokinesis to spindle midzone function to prevent chromosome breakage. Cell 125 85-98 PubMed GONUTS page
↑ Nakajima, Y et al. (2009) Nbl1p: a Borealin/Dasra/CSC-1-like protein essential for Aurora/Ipl1 complex function and integrity in Saccharomyces cerevisiae. Mol. Biol. Cell 20 1772-84 PubMed GONUTS page
↑ ^15.0 ^15.1 Biggins, S et al. (1999) The conserved protein kinase Ipl1 regulates microtubule binding to kinetochores in budding yeast. Genes Dev. 13 532-44 PubMed GONUTS page
↑ Chan, CS & Botstein, D (1993) Isolation and characterization of chromosome-gain and increase-in-ploidy mutants in yeast. Genetics 135 677-91 PubMed GONUTS page
↑ ^17.0 ^17.1 King, EM et al. (2007) Ipl1p-dependent phosphorylation of Mad3p is required for the spindle checkpoint response to lack of tension at kinetochores. Genes Dev. 21 1163-8 PubMed GONUTS page
↑ ^18.0 ^18.1 Markus, SM et al. (2012) She1-mediated inhibition of dynein motility along astral microtubules promotes polarized spindle movements. Curr. Biol. 22 2221-30 PubMed GONUTS page
↑ ^19.0 ^19.1 He, X et al. (2001) Molecular analysis of kinetochore-microtubule attachment in budding yeast. Cell 106 195-206 PubMed GONUTS page
↑ ^20.0 ^20.1 Kang, J et al. (2001) Functional cooperation of Dam1, Ipl1, and the inner centromere protein (INCENP)-related protein Sli15 during chromosome segregation. J. Cell Biol. 155 763-74 PubMed GONUTS page
↑ Zhang, K et al. (2005) The Set1 methyltransferase opposes Ipl1 aurora kinase functions in chromosome segregation. Cell 122 723-34 PubMed GONUTS page
↑ ^22.0 ^22.1 ^22.2 ^22.3 ^22.4 ^22.5 ^22.6 ^22.7 Gaudet, P et al. (2011) Phylogenetic-based propagation of functional annotations within the Gene Ontology consortium. Brief. Bioinformatics 12 449-62 PubMed GONUTS page

[PMID:24558497-1] 1.0 ^1.1 Makrantoni, V et al. (2014) Phosphorylation of Sli15 by Ipl1 is important for proper CPC localization and chromosome stability in Saccharomyces cerevisiae. PLoS ONE 9 e89399 PubMed GONUTS page

[PMID:22842922-2] 2.0 ^2.1 ^2.2 Tkach, JM et al. (2012) Dissecting DNA damage response pathways by analysing protein localization and abundance changes during DNA replication stress. Nat. Cell Biol. 14 966-76 PubMed GONUTS page

[PMID:16319894-3] 3.0 ^3.1 Ptacek, J et al. (2005) Global analysis of protein phosphorylation in yeast. Nature 438 679-84 PubMed GONUTS page

[PMID:14581449-4] Westermann, S et al. (2003) Architecture of the budding yeast kinetochore reveals a conserved molecular core. J. Cell Biol. 163 215-22 PubMed GONUTS page

[PMID:25387524-5] 5.0 ^5.1 Shen, ZJ et al. (2014) PP2A and Aurora differentially modify Cdc13 to promote telomerase release from telomeres at G2/M phase. Nat Commun 5 5312 PubMed GONUTS page

[PMID:24386320-6] Newnham, L et al. (2013) Ipl1/Aurora kinase suppresses S-CDK-driven spindle formation during prophase I to ensure chromosome integrity during meiosis. PLoS ONE 8 e83982 PubMed GONUTS page

[PMID:23177738-7] Cairo, LV et al. (2013) Mitosis-specific regulation of nuclear transport by the spindle assembly checkpoint protein Mad1p. Mol. Cell 49 109-20 PubMed GONUTS page

[PMID:16327780-8] Pinsky, BA et al. (2006) The Ipl1-Aurora protein kinase activates the spindle checkpoint by creating unattached kinetochores. Nat. Cell Biol. 8 78-83 PubMed GONUTS page

[PMID:12566427-9] 9.0 ^9.1 ^9.2 ^9.3 Buvelot, S et al. (2003) The budding yeast Ipl1/Aurora protein kinase regulates mitotic spindle disassembly. J. Cell Biol. 160 329-39 PubMed GONUTS page

[PMID:17371833-10] Yu, HG & Koshland, D (2007) The Aurora kinase Ipl1 maintains the centromeric localization of PP2A to protect cohesin during meiosis. J. Cell Biol. 176 911-8 PubMed GONUTS page

[PMID:17289568-11] 11.0 ^11.1 Monje-Casas, F et al. (2007) Kinetochore orientation during meiosis is controlled by Aurora B and the monopolin complex. Cell 128 477-90 PubMed GONUTS page

[PMID:16651657-12] Andrews, CA et al. (2006) A mitotic topoisomerase II checkpoint in budding yeast is required for genome stability but acts independently of Pds1/securin. Genes Dev. 20 1162-74 PubMed GONUTS page

[PMID:16615892-13] Norden, C et al. (2006) The NoCut pathway links completion of cytokinesis to spindle midzone function to prevent chromosome breakage. Cell 125 85-98 PubMed GONUTS page

[PMID:19158380-14] Nakajima, Y et al. (2009) Nbl1p: a Borealin/Dasra/CSC-1-like protein essential for Aurora/Ipl1 complex function and integrity in Saccharomyces cerevisiae. Mol. Biol. Cell 20 1772-84 PubMed GONUTS page

[PMID:10072382-15] 15.0 ^15.1 Biggins, S et al. (1999) The conserved protein kinase Ipl1 regulates microtubule binding to kinetochores in budding yeast. Genes Dev. 13 532-44 PubMed GONUTS page

[PMID:8293973-16] Chan, CS & Botstein, D (1993) Isolation and characterization of chromosome-gain and increase-in-ploidy mutants in yeast. Genetics 135 677-91 PubMed GONUTS page

[PMID:17504936-17] 17.0 ^17.1 King, EM et al. (2007) Ipl1p-dependent phosphorylation of Mad3p is required for the spindle checkpoint response to lack of tension at kinetochores. Genes Dev. 21 1163-8 PubMed GONUTS page

[PMID:23142046-18] 18.0 ^18.1 Markus, SM et al. (2012) She1-mediated inhibition of dynein motility along astral microtubules promotes polarized spindle movements. Curr. Biol. 22 2221-30 PubMed GONUTS page

[PMID:11511347-19] 19.0 ^19.1 He, X et al. (2001) Molecular analysis of kinetochore-microtubule attachment in budding yeast. Cell 106 195-206 PubMed GONUTS page

[PMID:11724818-20] 20.0 ^20.1 Kang, J et al. (2001) Functional cooperation of Dam1, Ipl1, and the inner centromere protein (INCENP)-related protein Sli15 during chromosome segregation. J. Cell Biol. 155 763-74 PubMed GONUTS page

[PMID:16143104-21] Zhang, K et al. (2005) The Set1 methyltransferase opposes Ipl1 aurora kinase functions in chromosome segregation. Cell 122 723-34 PubMed GONUTS page

[PMID:21873635-22] 22.0 ^22.1 ^22.2 ^22.3 ^22.4 ^22.5 ^22.6 ^22.7 Gaudet, P et al. (2011) Phylogenetic-based propagation of functional annotations within the Gene Ontology consortium. Brief. Bioinformatics 12 449-62 PubMed GONUTS page

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YEAST:IPL1

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