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CACAO Spring 2019

My Annotations

StatusPageDate/TimeGO Term (Aspect)ReferenceEvidenceNotesLinks
acceptableCAUVC:PLEC2019-01-29 16:04:12 CSTGO:0000160 phosphorelay signal transduction system (P)PMID:16176121ECO:0001202 in vitro protein kinase assay evidence used in manual assertion

Figures 5 shows that Non-motile and phage-resistance protein (PleC), in Caulobacter crescentus, demonstrates phosphorylation of PleD, its vivo target.

challenge
acceptable9CAUD:J3SMK22019-02-05 15:40:37 CSTGO:0019012 virion (C)PMID:26459165ECO:0005527 matrix-assisted laser desorption/ionization time-of-flight mass spectrometry evidence used in manual assertion

In Table 1 gp270/putative-lectin like domain protein (an uncharacterized protein) was shown to be part of the Caulobacter phage Cbk virus (also referenced as Caulobacter virus phiCbk) through MALDI-TOF MS analysis. These proteins were isolated from the phage as shown through SDS-PAGE in Figure 1 and 2.

challenge
acceptable9CAUD:J3UIK32019-03-19 13:32:10 CDTGO:0019012 virion (C)PMID:26459165ECO:0005527 matrix-assisted laser desorption/ionization time-of-flight mass spectrometry evidence used in manual assertion

In Table 1 gp101/tail fiber protein (putative tail protein) was shown to be part of the Caulobacter phage Cbk virus (also referenced as Caulobacter virus phiCbk) through MALDI-TOF MS analysis. These proteins were isolated from the phage as shown through SDS-PAGE in Figure 1 and 2.

challenge
acceptable9CAUD:J3SVM52019-03-19 13:38:03 CDTGO:0019012 virion (C)PMID:26459165ECO:0005527 matrix-assisted laser desorption/ionization time-of-flight mass spectrometry evidence used in manual assertion

In Table 1 gp318/terminase large subunit (Intein-containing putative terminase large subunit) was shown to be part of the Caulobacter phage Cbk virus (also referenced as Caulobacter virus phiCbk) through MALDI-TOF MS analysis. These proteins were isolated from the phage as shown through SDS-PAGE in Figure 1 and 2.

challenge
acceptable9CAUD:J3SKZ52019-03-19 14:01:01 CDTGO:0019012 virion (C)PMID:26459165ECO:0005527 matrix-assisted laser desorption/ionization time-of-flight mass spectrometry evidence used in manual assertion

In Table 1 gp123/T7-like Pol I DNA Polymerase (putative T7-like Pol I DNA Polymerase) was shown to be part of the Caulobacter phage Cbk virus (also referenced as Caulobacter virus phiCbk) through MALDI-TOF MS analysis. These proteins were isolated from the phage as shown through SDS-PAGE in Figure 1.

challenge
acceptable9CAUD:J3SKV62019-03-19 14:03:08 CDTGO:0019012 virion (C)PMID:26459165ECO:0005527 matrix-assisted laser desorption/ionization time-of-flight mass spectrometry evidence used in manual assertion

In Table 1 gp273/Conserved phage protein (uncharacterized protein) was shown to be part of the Caulobacter phage Cbk virus (also referenced as Caulobacter virus phiCbk) through MALDI-TOF MS analysis. These proteins were isolated from the phage as shown through SDS-PAGE in Figure 1 and 2.

challenge
acceptable9CAUD:H9C1992019-03-21 16:40:44 CDTGO:0098015 virus tail (C)PMID:26887841ECO:0007184 protein mass spectrometry evidence used in manual assertion

In Table 1 gp49/phage tail component (an uncharacterized protein) was shown to be part of the Bacteriophage ZF40 virus (also referenced Pectobacterium phage ZF40) through ESI-MS/MS. This protein was isolated in Lane 2, of Figure 1C, which is phage tail samples.

challenge
acceptable9CAUD:H9C1A22019-03-28 16:42:36 CDTGO:0098027 virus tail, sheath (C)PMID:26887841ECO:0007184 protein mass spectrometry evidence used in manual assertion

In Table 1 gp52/major tail sheath protein (an uncharacterized protein) was shown to be part of the Bacteriophage ZF40 virus (also referenced Pectobacterium phage ZF40) through ESI-MS/MS. This protein was isolated in Lane 3, of Figure 1D, which is identified as phage tail samples.

challenge
acceptable9CAUD:H9C1A32019-03-28 16:46:31 CDTGO:0098026 virus tail, tube (C)PMID:26887841ECO:0007184 protein mass spectrometry evidence used in manual assertion

In Table 1 gp53/putative tail tube protein (an uncharacterized protein) was shown to be part of the Bacteriophage ZF40 virus (also referenced Pectobacterium phage ZF40) through ESI-MS/MS. This protein was isolated in Lane 3, of Figure 1D, which is identified as phage tail samples.

challenge
acceptable9CAUD:H9C1A72019-03-28 16:48:47 CDTGO:0098015 virus tail (C)PMID:26887841ECO:0007184 protein mass spectrometry evidence used in manual assertion

In Table 1 gp57/tape measure protein/lysin (an uncharacterized protein) was shown to be part of the Bacteriophage ZF40 virus (also referenced Pectobacterium phage ZF40) through ESI-MS/MS. This protein was isolated in Lane 2, of Figure 1C, which is identified as phage tail samples.

challenge
acceptable9CAUD:H9C1A82019-03-28 16:55:21 CDTGO:0098015 virus tail (C)PMID:26887841ECO:0007184 protein mass spectrometry evidence used in manual assertion

In Table 1 gp58/ tail protein (an uncharacterized protein) was shown to be part of the Bacteriophage ZF40 virus (also referenced Pectobacterium phage ZF40) through ESI-MS/MS. This protein was isolated in Lane 2, of Figure 1C, which is identified as phage tail samples.

challenge
acceptable9CAUD:K4JNV02019-04-11 10:15:57 CDTGO:0019012 virion (C)PMID:26459165ECO:0005527 matrix-assisted laser desorption/ionization time-of-flight mass spectrometry evidence used in manual assertion

In Table 1 gp42/portal protein was shown to be part of the Caulobacter phage Cbk virus (also referenced as Caulobacter virus phiCbk) through MALDI-TOF MS analysis. This protein was isolated from the phage as shown through SDS-PAGE in Figure 1.

challenge
acceptable9CAUD:K4K3Z12019-04-11 10:19:02 CDTGO:0019012 virion (C)PMID:26459165ECO:0005527 matrix-assisted laser desorption/ionization time-of-flight mass spectrometry evidence used in manual assertion

In Table 1 gp137/Putative rIIb-like protein (uncharacterized protein) was shown to be part of the Caulobacter phage Cbk virus (also referenced as Caulobacter virus phiCbk) through MALDI-TOF MS analysis. This protein was isolated from the phage as shown through SDS-PAGE in Figure 1 and 2.

challenge
acceptable9CAUD:J3UIJ52019-04-11 10:22:43 CDTGO:0019012 virion (C)PMID:26459165ECO:0005527 matrix-assisted laser desorption/ionization time-of-flight mass spectrometry evidence used in manual assertion

In Table 1 gp111/ Ribonucleoside diphosphate reductase beta subunit (Putative ribonucleoside diphosphate reductase beta subunit) was shown to be part of the Caulobacter phage Cbk virus (also referenced as Caulobacter virus phiCbk) through MALDI-TOF MS analysis. This protein was isolated from the phage as shown through SDS-PAGE in Figure 1 and 2.

challenge
acceptable9CAUD:J3SVS82019-04-11 13:36:17 CDTGO:0019012 virion (C)PMID:26459165ECO:0005527 matrix-assisted laser desorption/ionization time-of-flight mass spectrometry evidence used in manual assertion

In Table 1 gp161/Nicotinate phosphoribosyltransferase (Putative lipoprotein) was shown to be part of the Caulobacter phage Cbk virus (also referenced as Caulobacter virus phiCbk) through MALDI-TOF MS analysis. This protein was isolated from the phage as shown through SDS-PAGE in Figure 1.

challenge
acceptable9CAUD:J3U9K32019-04-11 13:39:10 CDTGO:0019012 virion (C)PMID:26459165ECO:0005527 matrix-assisted laser desorption/ionization time-of-flight mass spectrometry evidence used in manual assertion

In Table 1 gp164/Hypothetical protein (Uncharacterized protein) was shown to be part of the Caulobacter phage Cbk virus (also referenced as Caulobacter virus phiCbk) through MALDI-TOF MS analysis. This protein was isolated from the phage as shown through SDS-PAGE in Figure 1.

challenge
acceptable9CAUD:J3SVU22019-04-11 13:42:08 CDTGO:0019012 virion (C)PMID:26459165ECO:0005527 matrix-assisted laser desorption/ionization time-of-flight mass spectrometry evidence used in manual assertion

In Table 1 gp119/Transcription terminator factor Rho (Uncharacterized protein) was shown to be part of the Caulobacter phage Cbk virus (also referenced as Caulobacter virus phiCbk) through MALDI-TOF MS analysis. This protein was isolated from the phage as shown through SDS-PAGE in Figure 1 and 2.

challenge
acceptable9CAUD:J3SMP42019-04-11 15:09:46 CDTGO:0019012 virion (C)PMID:26459165ECO:0005527 matrix-assisted laser desorption/ionization time-of-flight mass spectrometry evidence used in manual assertion

In Table 1 gp60/DHH phosphoesterase protein (Putative DHH phosphoesterase protein) was shown to be part of the Caulobacter phage Cbk virus (also referenced as Caulobacter virus phiCbk) through MALDI-TOF MS analysis. This protein was isolated from the phage as shown through SDS-PAGE in Figure 1 and 2.

challenge
acceptable9CAUD:K4JRJ42019-04-11 15:15:28 CDTGO:0019012 virion (C)PMID:26459165ECO:0005527 matrix-assisted laser desorption/ionization time-of-flight mass spectrometry evidence used in manual assertion

In Table 1 gp68/Major capsid protein was shown to be part of the Caulobacter phage Cbk virus (also referenced as Caulobacter virus phiCbk) through MALDI-TOF MS analysis. This protein was isolated from the phage as shown through SDS-PAGE in Figure 2.

challenge
acceptable9CAUD:J3SKX82019-04-11 15:18:41 CDTGO:0019012 virion (C)PMID:26459165ECO:0005527 matrix-assisted laser desorption/ionization time-of-flight mass spectrometry evidence used in manual assertion

In Table 1 gp180/Core domain of the SPFH superfamily (Putative band 7 lipoprotein) was shown to be part of the Caulobacter phage Cbk virus (also referenced as Caulobacter virus phiCbk) through MALDI-TOF MS analysis. This protein was isolated from the phage as shown through SDS-PAGE in Figure 2.

challenge
acceptable9CAUD:J3SKX42019-04-11 15:21:50 CDTGO:0019012 virion (C)PMID:26459165ECO:0005527 matrix-assisted laser desorption/ionization time-of-flight mass spectrometry evidence used in manual assertion

In Table 1 gp198/HNH nuclease domain (Putative HNH endonuclease) was shown to be part of the Caulobacter phage Cbk virus (also referenced as Caulobacter virus phiCbk) through MALDI-TOF MS analysis. This protein was isolated from the phage as shown through SDS-PAGE in Figure 1 and 2.

challenge
acceptable9CAUD:J3U9T12019-04-11 15:27:02 CDTGO:0019012 virion (C)PMID:26459165ECO:0005527 matrix-assisted laser desorption/ionization time-of-flight mass spectrometry evidence used in manual assertion

In Table 1 gp057/HD-domain/PDEase-like protein (Putative HD-domain/PDEase-like protein) was shown to be part of the Caulobacter phage Cbk virus (also referenced as Caulobacter virus phiCbk) through MALDI-TOF MS analysis. This protein was isolated from the phage as shown through SDS-PAGE in Figure 2.

challenge
updatedbyinstructor9CAUD:J3SL152019-04-11 15:52:04 CDTGO:0019012 virion (C)PMID:26459165ECO:0005527 matrix-assisted laser desorption/ionization time-of-flight mass spectrometry evidence used in manual assertion

In Table 1 gp048/Hypothetical protein (Uncharacterized protein) was shown to be associated with the Caulobacter phage Cbk virus (also referenced as Caulobacter virus phiCbk) through MALDI-TOF MS analysis. This protein was isolated from the phage as shown through SDS-PAGE in Figure 2 - denoted "10".

challenge
acceptable9CAUD:J3U9F32019-04-11 15:54:26 CDTGO:0019012 virion (C)PMID:26459165ECO:0005527 matrix-assisted laser desorption/ionization time-of-flight mass spectrometry evidence used in manual assertion

In Table 1 gp242/Hypothetical protein (Uncharacterized protein) was shown to be part of the Caulobacter phage Cbk virus (also referenced as Caulobacter virus phiCbk) through MALDI-TOF MS analysis. This protein was isolated from the phage as shown through SDS-PAGE in Figure 2.

challenge
acceptable9CAUD:J3SML72019-04-11 15:57:27 CDTGO:0019012 virion (C)PMID:26459165ECO:0005527 matrix-assisted laser desorption/ionization time-of-flight mass spectrometry evidence used in manual assertion

In Table 1 gp195/Hypothetical protein (Uncharacterized protein) was shown to be part of the Caulobacter phage Cbk virus (also referenced as Caulobacter virus phiCbk) through MALDI-TOF MS analysis. This protein was isolated from the phage as shown through SDS-PAGE in Figure 2.

challenge
acceptable9CAUD:J3SKV02019-04-11 16:03:17 CDTGO:0019012 virion (C)PMID:26459165ECO:0005527 matrix-assisted laser desorption/ionization time-of-flight mass spectrometry evidence used in manual assertion

In Table 1 gp303/Hypothetical protein (Uncharacterized protein) was shown to be part of the Caulobacter phage Cbk virus (also referenced as Caulobacter virus phiCbk) through MALDI-TOF MS analysis. This protein was isolated from the phage as shown through SDS-PAGE in Figure 2.

challenge
acceptableASFB7:VF1462019-04-14 20:43:23 CDTGO:0019012 virion (C)PMID:30185597ECO:0001582 liquid chromatography coupled with tandem mass spectrometry evidence used in manual assertion

The protein characterized by ORF E146L in the African Swine Fever Virus, strain Ba71V, was identified as a component of the virion through liquid chromatography with tandem mass spectrometry, as shown in table 1.

Uniprot: Uncharacterized protein E146L, Ba71V-129

challenge
acceptableASFB7:RPB32019-04-14 20:40:42 CDTGO:0019012 virion (C)PMID:30185597ECO:0001582 liquid chromatography coupled with tandem mass spectrometry evidence used in manual assertion

The protein characterized by ORF H359L in the African Swine Fever Virus, strain Ba71V, was identified as a component of the virion through liquid chromatography with tandem mass spectrometry, as shown in table 1.

Uniprot: Putative DNA-directed RNA polymerase subunit 3 homolog, Ba71V-113

challenge
acceptableASFB7:VF3172019-04-14 20:47:19 CDTGO:0019012 virion (C)PMID:30185597ECO:0001582 liquid chromatography coupled with tandem mass spectrometry evidence used in manual assertion

The protein characterized by ORF F317L in the African Swine Fever Virus, strain Ba71V, was identified as a component of the virion through liquid chromatography with tandem mass spectrometry, as shown in table 1.

Uniprot: Uncharacterized protein F317L, Ba71V-043

challenge
acceptableASFB7:PK12019-04-14 20:52:29 CDTGO:0019012 virion (C)PMID:30185597ECO:0001582 liquid chromatography coupled with tandem mass spectrometry evidence used in manual assertion

The protein characterized by ORF R298L in the African Swine Fever Virus, strain Ba71V, was identified as a component of the virion through liquid chromatography with tandem mass spectrometry, as shown in table 1.

Uniprot: Serine/threonine-protein kinase 1, Ba71V-121

challenge
acceptableASFB7:VF1372019-04-14 20:58:53 CDTGO:0019012 virion (C)PMID:30185597ECO:0001582 liquid chromatography coupled with tandem mass spectrometry evidence used in manual assertion

The protein characterized by ORF A137R in the African Swine Fever Virus, strain Ba71V, was identified as a component of the virion through liquid chromatography with tandem mass spectrometry, as shown in table 1.

Uniprot: Structural protein A137R, GeneBa71V-042

challenge
acceptableASFB7:VF2402019-04-14 21:02:47 CDTGO:0019012 virion (C)PMID:30185597ECO:0001582 liquid chromatography coupled with tandem mass spectrometry evidence used in manual assertion

The protein characterized by ORF H240R in the African Swine Fever Virus, strain Ba71V, was identified as a component of the virion through liquid chromatography with tandem mass spectrometry, as shown in table 1.

Uniprot: Uncharacterized protein H240R, Ba71V-120

challenge

acceptable:31
unacceptable:0
requires_changes:0
flagged:0

Annotations challenged by EZN

StatusAuthor,GroupPageGO Term (Aspect)ReferenceEvidenceLinksPage history

0 annotations fixed by EZN

CACAO Fall 2018

My Annotations

StatusPageDate/TimeGO Term (Aspect)ReferenceEvidenceNotesLinks
acceptable9CAUD:U5PW982018-09-11 14:12:13 CDTGO:0016787 hydrolase activity (F)PMID:29298884ECO:0000314 direct assay evidence used in manual assertion

Figure 9 used colorimetric copper-bicinchoninate assay to show that gp39/Dpo1/Tail Fiber Protein from Acinetobacter phage Petty possess hydrolase enzyme activity by producing reducing ends from EPS.

challenge
acceptable9CAUD:U5PZH22018-09-18 13:52:26 CDTGO:0019012 virion (C)PMID:29298884ECO:0000314 direct assay evidence used in manual assertion

Figure 5 used Mass Spectroscopy to show that the gp35/Tail Tubular protein B was present in the Acinetobacter phage Petty, after first being noticed in the genome by homology in other T7-like phages.

challenge
acceptable9CAUD:U5PVS52018-09-18 14:10:15 CDTGO:0019012 virion (C)PMID:29298884ECO:0000314 direct assay evidence used in manual assertion

Figure 5 used Mass Spectroscopy to show that the gp32/Capsid Protein was present in the Acinetobacter phage Petty, after first being noticed in the genome by homology in other T7-like phages. Also referenced as the major capsid protein.

challenge
acceptable9CAUD:B3FK342018-10-02 14:37:46 CDTGO:0051649 establishment of localization in cell (P)PMID:22726436ECO:0000315 mutant phenotype evidence used in manual assertion

Figure 6 (D) used Microscopic Single Cell Assay, and fluorescence, to show that 201φ2-1p059/PhuZ/tubulin-like protein localized the plasmid DNA of the organism Bacteriophage 201φ2-1 within the infected bacteria. Figure 6 (H) shows how the phage nucleoid is frequently mispositioned due to the mutant, refortifying the fact that this protein contributes to the localization of the phage nucleoid in the cell.

challenge
acceptable9CAUD:B3FK342018-10-02 14:40:18 CDTGO:0051649 establishment of localization in cell (P)PMID:28082593ECO:0000314 direct assay evidence used in manual assertion

Figure 1 (C) used Time-Lapse Microscopy, and fluorescence, to show that 201φ2-1p059/PhuZ/phage-encoded tubulin-like cytoskeletal protein localized the GP-105, and coincidentally the Bacteriophage 201φ2-1 DNA within the mid cell of the infected microorganism.

challenge
unacceptableMOUSE:MYC2018-10-29 10:20:52 CDTGO:0001228 DNA-binding transcription activator activity, RNA polymerase II-specific (F)PMID:26691508ECO:0000314 direct assay evidence used in manual assertion

In Figure 1, more specifically 1C, it is shown how Myc proto-oncogene protein/c-Myc in Mus musculus upregulates Wdr5 and Dpy30 expression at the RNA level. With Myc proto-oncogene protein/c-Myc significantly having an impact on how the other transcription factors acted, as shown by Figure 1E. Later in the paper, through the use of this data, it then verifies how direct binding to the promoter sequence caused DNA-binding transcription activator activity.

challenge
acceptable9CAUD:U5PZG82018-10-29 15:07:12 CDTGO:0019012 virion (C)PMID:29298884ECO:0000314 direct assay evidence used in manual assertion

Figure 5 used Mass Spectroscopy to show that the gp30/Head to tail joining protein was present in the Acinetobacter phage Petty, after first being noticed in the genome by homology in other T7-like phages.

challenge
acceptable9CAUD:U5PZF12018-10-29 15:08:58 CDTGO:0019012 virion (C)PMID:29298884ECO:0000314 direct assay evidence used in manual assertion

Figure 5 used Mass Spectroscopy to show that the gp10/Hypothetical protein/uncharacterized protein was present in the Acinetobacter phage Petty, after first being noticed in the genome by homology in other T7-like phages.

challenge
acceptable9CAUD:U5PVS02018-10-29 15:11:33 CDTGO:0019012 virion (C)PMID:29298884ECO:0000314 direct assay evidence used in manual assertion

Figure 5 used Mass Spectroscopy to show that the gp27/Hypothetical protein/uncharacterized protein was present in the Acinetobacter phage Petty, after first being noticed in the genome by homology in other T7-like phages.

challenge
acceptable9CAUD:U5PW882018-10-29 15:13:21 CDTGO:0019012 virion (C)PMID:29298884ECO:0000314 direct assay evidence used in manual assertion

Figure 5 used Mass Spectroscopy to show that the gp29/Hypothetical protein/uncharacterized protein was present in the Acinetobacter phage Petty, after first being noticed in the genome by homology in other T7-like phages.

challenge
acceptableMOUSE:MYC2018-11-13 13:16:30 CSTGO:0060261 positive regulation of transcription initiation from RNA polymerase II promoter (P)PMID:26691508ECO:0000314 direct assay evidence used in manual assertion

In Figure 1, more specifically 1C and 1D, it is shown how Myc proto-oncogene protein/c-Myc in Mus musculus (Mouse) upregulates Wdr5 and Dpy30 expression at the RNA level. Fig 1H then shows that c-Myc binds to the promoter specifically.

challenge
acceptableMOUSE:PO5F12018-11-13 15:13:30 CSTGO:0060261 positive regulation of transcription initiation from RNA polymerase II promoter (P)PMID:26691508ECO:0000314 direct assay evidence used in manual assertion

In Figure 1, more specifically 1C and 1D, it is shown how POU domain, class 5, transcription factor 1/Transcription Factor Oct4 in Mus musculus upregulates Wdr5 and Dpy30 expression at the RNA level. Figure 6B then shows occupation of the promoter sequence through ChIP assays for the POU domain, class 5, transcription factor 1/Transcription Factor Oct4.

challenge

acceptable:11
unacceptable:1
requires_changes:0
flagged:0

Annotations challenged by EZN

StatusAuthor,GroupPageGO Term (Aspect)ReferenceEvidenceLinksPage history
acceptableMABeebe,
Death by Gene
MOUSE:PO5F1GO:0001228 - DNA-binding transcription activator activity, RNA polymerase II-specific (F)PMID:26691508ECO:0000314 direct assay evidence used in manual assertionchallengeC: 4
updatedbyinstructorMABeebe,
Death by Gene
MOUSE:SOX2GO:0045944 - positive regulation of transcription by RNA polymerase II (P)PMID:26691508ECO:0000314 direct assay evidence used in manual assertionchallengeC: 1

fixed by EZN
updatedbyinstructorMABeebe,
Death by Gene
MOUSE:KLF4GO:0045944 - positive regulation of transcription by RNA polymerase II (P)PMID:26691508ECO:0000314 direct assay evidence used in manual assertionchallengeC: 1

fixed by EZN
acceptableMABeebe,
Death by Gene
MOUSE:KMT2DGO:0001228 - DNA-binding transcription activator activity, RNA polymerase II-specific (F)PMID:26691508ECO:0000314 direct assay evidence used in manual assertionchallengeC: 3
updatedbyinstructorMayurSST,
Team Donuts
RAT:CNR1GO:0014063 - negative regulation of serotonin secretion (P)PMID:30217553ECO:0000315 mutant phenotype evidence used in manual assertionchallengeC: 2

fixed by EZN
updatedbyinstructorMayurSST,
Team Donuts
RAT:5HT1AGO:0014053 - negative regulation of gamma-aminobutyric acid secretion (P)PMID:30217553ECO:0000315 mutant phenotype evidence used in manual assertionchallengeC: 3

fixed by EZN
updatedbyinstructorMayurSST,
Team Donuts
RAT:5HT1BGO:0014053 - negative regulation of gamma-aminobutyric acid secretion (P)PMID:30217553ECO:0000314 direct assay evidence used in manual assertionchallengeC: 3

fixed by EZN
updatedbyinstructorAshFlipp3,
Team Donuts2
MOUSE:AQP4GO:0033326 - cerebrospinal fluid secretion (P)PMID:30293570ECO:0000315 mutant phenotype evidence used in manual assertionchallengeC: 1

fixed by EZN

6 annotations fixed by EZN