Summary of Study ST001926

This data is available at the NIH Common Fund's National Metabolomics Data Repository (NMDR) website, the Metabolomics Workbench, https://www.metabolomicsworkbench.org, where it has been assigned Project ID PR001216. The data can be accessed directly via it's Project DOI: 10.21228/M8J11K This work is supported by NIH grant, U2C- DK119886.

See: https://www.metabolomicsworkbench.org/about/howtocite.php

This study contains a large results data set and is not available in the mwTab file. It is only available for download via FTP as data file(s) here.

Study ID	ST001926
Study Title	Modular evolution of the Drosophila metabolome
Study Summary	In this study, we look at both targeted and untargeted metabolomic data from both sexes and 11 species of Drosophila. For the targeted analysis, we also looked at two ages to understand conserved changes with age in the Drosophila genus.
Institute	University of Washington
Last Name	Promislow
First Name	Daniel
Address	1959 NE Pacific Street, Seattle, Washington, 98195, USA
Email	promislo@uw.edu
Phone	206-616-6994
Submit Date	2021-09-01
Raw Data Available	Yes
Raw Data File Type(s)	mzXML
Analysis Type Detail	LC-MS
Release Date	2022-02-02
Release Version	1

Select appropriate tab below to view additional metadata details:

Project:

Project ID:	PR001216
Project DOI:	doi: 10.21228/M8J11K
Project Title:	Modular evolution of the Drosophila metabolome
Project Summary:	Analyze targeted and untargeted metabolomic profiles of 11 species of Drosophila
Institute:	University of Washington
Last Name:	Hoffman
First Name:	Jessica
Address:	1300 University Blvd, CH464
Email:	jmhoffm@uab.edu
Phone:	6789100585

Subject:

Subject ID:	SU002004
Subject Type:	Invertebrate
Subject Species:	Drosophila melanogaster
Taxonomy ID:	7227
Gender:	Male and female

Factors:

Subject type: Invertebrate; Subject species: Drosophila melanogaster (Factor headings shown in green)

mb_sample_id	local_sample_id	Line	Sex	Species	Age
SA178144	76	Ana-00	females	ananassae	-
SA178145	119	Ana-00	females	ananassae	-
SA178146	74	Ana-00	females	ananassae	-
SA178312	tube.57	ana-00	F	ananassae	31
SA178313	tube.1	ana-00	F	ananassae	5
SA178147	105	Ana-00	males	ananassae	-
SA178148	166	Ana-00	males	ananassae	-
SA178149	151	Ana-00	males	ananassae	-
SA178314	tube.58	ana-00	M	ananassae	31
SA178315	tube.2	ana-00	M	ananassae	5
SA178150	77	Ana-12	females	ananassae	-
SA178151	138	Ana-12	females	ananassae	-
SA178152	112	Ana-12	females	ananassae	-
SA178316	tube.59	ana-12	F	ananassae	31
SA178317	tube.3	ana-12	F	ananassae	5
SA178153	43	Ana-12	males	ananassae	-
SA178154	27	Ana-12	males	ananassae	-
SA178155	70	Ana-12	males	ananassae	-
SA178318	tube.60	ana-12	M	ananassae	31
SA178319	tube.4	ana-12	M	ananassae	5
SA178156	152	Ana-15	females	ananassae	-
SA178157	143	Ana-15	females	ananassae	-
SA178158	117	Ana-15	females	ananassae	-
SA178320	tube.61	ana-15	F	ananassae	31
SA178321	tube.5	ana-15	F	ananassae	5
SA178159	145	Ana-15	males	ananassae	-
SA178160	37	Ana-15	males	ananassae	-
SA178161	7	Ana-15	males	ananassae	-
SA178322	tube.62	ana-15	M	ananassae	31
SA178323	tube.6	ana-15	M	ananassae	5
SA178162	64	Ere-00	females	erecta	-
SA178163	158	Ere-00	females	erecta	-
SA178164	164	Ere-00	females	erecta	-
SA178324	tube.63	ere-00	F	erecta	31
SA178325	tube.7	ere-00	F	erecta	5
SA178165	11	Ere-00	males	erecta	-
SA178166	123	Ere-00	males	erecta	-
SA178167	130	Ere-00	males	erecta	-
SA178326	tube.64	ere-00	M	erecta	31
SA178327	tube.8	ere-00	M	erecta	5
SA178186	163	Mel-14	females	melanogaster	-
SA178187	62	Mel-14	females	melanogaster	-
SA178188	154	Mel-14	females	melanogaster	-
SA178328	tube.97	mel-14	F	melanogaster	31
SA178329	tube.9	mel-14	F	melanogaster	5
SA178189	84	Mel-14	males	melanogaster	-
SA178190	104	Mel-14	males	melanogaster	-
SA178191	148	Mel-14	males	melanogaster	-
SA178330	tube.10	mel-14	M	melanogaster	5
SA178192	111	Mel-56	females	melanogaster	-
SA178193	61	Mel-56	females	melanogaster	-
SA178194	50	Mel-56	females	melanogaster	-
SA178331	tube.65	mel-56	F	melanogaster	31
SA178332	tube.11	mel-56	F	melanogaster	5
SA178195	80	Mel-56	males	melanogaster	-
SA178196	87	Mel-56	males	melanogaster	-
SA178197	122	Mel-56	males	melanogaster	-
SA178333	tube.12	mel-56	M	melanogaster	5
SA178198	75	Mel-61	females	melanogaster	-
SA178334	tube.66	mel-61	F	melanogaster	31
SA178335	tube.13	mel-61	F	melanogaster	5
SA178199	14	Mel-61	males	melanogaster	-
SA178200	113	Mel-61	males	melanogaster	-
SA178336	tube.84	mel-61	M	melanogaster	31
SA178337	tube.14	mel-61	M	melanogaster	5
SA178168	169	MJ-122	females	mojavensis	-
SA178169	19	MJ-122	females	mojavensis	-
SA178170	167	MJ-122	females	mojavensis	-
SA178171	136	MJ-122	males	mojavensis	-
SA178172	13	MJ-122	males	mojavensis	-
SA178173	96	MJ-122	males	mojavensis	-
SA178174	162	MJCI-1002	females	mojavensis	-
SA178175	132	MJCI-1002	females	mojavensis	-
SA178176	135	MJCI-1002	females	mojavensis	-
SA178177	73	MJCI-1002	males	mojavensis	-
SA178178	34	MJCI-1002	males	mojavensis	-
SA178179	83	MJCI-1002	males	mojavensis	-
SA178180	4	MJCI-2008	females	mojavensis	-
SA178181	12	MJCI-2008	females	mojavensis	-
SA178182	51	MJCI-2008	females	mojavensis	-
SA178183	121	MJCI-2008	males	mojavensis	-
SA178184	9	MJCI-2008	males	mojavensis	-
SA178185	147	MJCI-2008	males	mojavensis	-
SA178338	tube.85	moj-1002	F	mojavensis	31
SA178339	tube.15	moj-1002	F	mojavensis	5
SA178340	tube.16	moj-1002	M	mojavensis	5
SA178341	tube.86	moj-2008	F	mojavensis	31
SA178342	tube.17	moj-2008	F	mojavensis	5
SA178343	tube.87	moj-2008	M	mojavensis	31
SA178344	tube.18	moj-2008	M	mojavensis	5
SA178201	110	Per-02	females	persimilis	-
SA178202	157	Per-02	females	persimilis	-
SA178203	137	Per-02	females	persimilis	-
SA178345	tube.19	per-02	F	persimilis	5
SA178204	3	Per-02	males	persimilis	-
SA178205	156	Per-02	males	persimilis	-
SA178206	24	Per-02	males	persimilis	-
SA178346	tube.20	per-02	M	persimilis	5
SA178207	109	Per-17	females	persimilis	-
SA178208	102	Per-17	females	persimilis	-

Showing page 1 of 3 Results: 1 2 3 Next Showing results 1 to 100 of 261

Collection:

Collection ID:	CO001997
Collection Summary:	We collected virgin males and females into vials with banana medium under light CO2 anesthesia within 8 hours of eclosion, except D. virilis, which was collected within 12 hours of eclosion. Flies were reared on banana media. For targeted analysis 3 flies from each sex/genotype combination at 5 and 31 days of age were flash frozen and stored at -80°C. For untargeted analysis five days old flies in groups of 10 flies were flash frozen in 1.5 mL tubes in liquid N2 and stored at -80°C until metabolite extraction
Sample Type:	Insect tissue
Storage Conditions:	-80℃

Treatment:

Treatment ID:	TR002016
Treatment Summary:	Sex, genotype, and age.

Sample Preparation:

Sampleprep ID:	SP002010
Sampleprep Summary:	Metabolites were extracted by homogenizing samples in 200uL HPLC water (Sigma) using a TissueLyser (TissueLyser II, Qiagen) for 6 minutes at 25 Hz at 4°C. We then added 800uL methanol and incubated for 30 minutes on dry ice. The suspension was homogenized again for 10 minutes at 25Hz, then spun at 14,000rcf for 10 minutes at 4°C. The supernatant was transferred to a new tube and dried in a Speed-Vac at 30°C.

Sampleprep ID:

SP002010

Sampleprep Summary:

Metabolites were extracted by homogenizing samples in 200uL HPLC water (Sigma) using a TissueLyser (TissueLyser II, Qiagen) for 6 minutes at 25 Hz at 4°C. We then added 800uL methanol and incubated for 30 minutes on dry ice. The suspension was homogenized again for 10 minutes at 25Hz, then spun at 14,000rcf for 10 minutes at 4°C. The supernatant was transferred to a new tube and dried in a Speed-Vac at 30°C.

Combined analysis:

Analysis ID	AN003130	AN003131	AN003132
Analysis type	MS	MS	MS
Chromatography type	HILIC	HILIC	HILIC
Chromatography system	Agilent 1260	Agilent 1260	Agilent 1260
Column	Waters Xbridge BEH HILIC (75 x 2.1mm,2.5um)	Waters Xbridge BEH HILIC (75 x 2.1mm,2.5um)	Waters Xbridge BEH HILIC (75 x 2.1mm,2.5um)
MS Type	ESI	ESI	ESI
MS instrument type	Other	QTOF	QTOF
MS instrument name	ABI Sciex 5500 QTrap	Agilent 6520 QTOF	Agilent 6520 QTOF
Ion Mode	UNSPECIFIED	POSITIVE	NEGATIVE
Units		Peak counts	Peak counts

Chromatography:

Chromatography ID:	CH002312
Chromatography Summary:	Targeted LC/MS-MS 1st column. LC-MS/MS experiments were performed on an Agilent 1260 LC (Agilent Technologies, Santa Clara, CA)-AB Sciex QTrap 5500 mass spectrometer (AB Sciex, Toronto, ON, Canada) system at the University of Washington Northwest Metabolomics Research Center (UWNMRC). Each sample was injected twice, 10 µL for analysis using negative ionization mode and 2 µL for analysis using positive ionization mode. Both chromatographic separations were performed in hydrophilic interaction chromatography (HILIC) mode on two Waters XBridge BEH Amide columns (150 x 2.1 mm, 2.5 µm particle size, Waters Corporation, Milford, MA) connected in parallel. The flow rate was 0.300 mL/min, auto-sampler temperature was kept at 4 °C, and the column compartment was set at 40 °C. The mobile phase was composed of Solvents A (5 mM ammonium acetate in 90%H2O/ 10% acetonitrile + 0.2% acetic acid) and B (5 mM ammonium acetate in 90%acetonitrile/ 10% H2O + 0.2% acetic acid). After the initial 2 min isocratic elution of 90% B, the percentage of Solvent B decreased to 50% at t=5 min. The composition of Solvent B maintained at 50% for 4 min (t=9 min), and then the percentage of B gradually went back to 90%, to prepare for the next injection. Targeted data acquisition was performed in multiple-reaction-monitoring (MRM) mode. The LC-MS system was controlled by Analyst 1.5 software (AB Sciex). The extracted MRM peaks were integrated using MultiQuant 2.1 software (AB Sciex). Samples were spiked with 13C internal standards, and two types of LC-MS/MS quality control (QC) samples were run at 11 evenly-spaced intervals throughout the run to track potential drift in the assay. One QC sample was a pool of 10 fly samples, and the other was a sample of human serum. The CV for these QCs was 8.2% and 7.7% respectively
Instrument Name:	Agilent 1260
Column Name:	Waters Xbridge BEH HILIC (75 x 2.1mm,2.5um)
Column Temperature:	40
Flow Rate:	0.300 mL/min
Internal Standard:	13C
Solvent A:	90% water/10% acetonitrile; 0.2% acetic acid; 5 mM ammonium acetate
Solvent B:	90% acetonitrile/ 10% water; 0.2% acetic acid; 5 mM ammonium acetate
Chromatography Type:	HILIC

Chromatography ID:	CH002313
Chromatography Summary:	Targeted LC/MS-MS 1st column. LC-MS/MS experiments were performed on an Agilent 1260 LC (Agilent Technologies, Santa Clara, CA)-AB Sciex QTrap 5500 mass spectrometer (AB Sciex, Toronto, ON, Canada) system at the University of Washington Northwest Metabolomics Research Center (UWNMRC). Each sample was injected twice, 10 µL for analysis using negative ionization mode and 2 µL for analysis using positive ionization mode. Both chromatographic separations were performed in hydrophilic interaction chromatography (HILIC) mode on two Waters XBridge BEH Amide columns (150 x 2.1 mm, 2.5 µm particle size, Waters Corporation, Milford, MA) connected in parallel. The flow rate was 0.300 mL/min, auto-sampler temperature was kept at 4 °C, and the column compartment was set at 40 °C. The mobile phase was composed of Solvents A (5 mM ammonium acetate in 90%H2O/ 10% acetonitrile + 0.2% acetic acid) and B (5 mM ammonium acetate in 90%acetonitrile/ 10% H2O + 0.2% acetic acid). After the initial 2 min isocratic elution of 90% B, the percentage of Solvent B decreased to 50% at t=5 min. The composition of Solvent B maintained at 50% for 4 min (t=9 min), and then the percentage of B gradually went back to 90%, to prepare for the next injection. Targeted data acquisition was performed in multiple-reaction-monitoring (MRM) mode. The LC-MS system was controlled by Analyst 1.5 software (AB Sciex). The extracted MRM peaks were integrated using MultiQuant 2.1 software (AB Sciex). Samples were spiked with 13C internal standards, and two types of LC-MS/MS quality control (QC) samples were run at 11 evenly-spaced intervals throughout the run to track potential drift in the assay. One QC sample was a pool of 10 fly samples, and the other was a sample of human serum. The CV for these QCs was 8.2% and 7.7% respectively
Instrument Name:	Agilent 1260
Column Name:	Waters Xbridge BEH HILIC (75 x 2.1mm,2.5um)
Column Temperature:	40
Flow Rate:	0.300 mL/min
Internal Standard:	13C
Solvent A:	90% water/10% acetonitrile; 0.2% acetic acid; 5 mM ammonium acetate
Solvent B:	90% acetonitrile/ 10% water; 0.2% acetic acid; 5 mM ammonium acetate
Chromatography Type:	HILIC

Chromatography ID:	CH002314
Chromatography Summary:	Targeted LC/MS-MS 1st column. LC-MS/MS experiments were performed on an Agilent 1260 LC (Agilent Technologies, Santa Clara, CA)-AB Sciex QTrap 5500 mass spectrometer (AB Sciex, Toronto, ON, Canada) system at the University of Washington Northwest Metabolomics Research Center (UWNMRC). Each sample was injected twice, 10 µL for analysis using negative ionization mode and 2 µL for analysis using positive ionization mode. Both chromatographic separations were performed in hydrophilic interaction chromatography (HILIC) mode on two Waters XBridge BEH Amide columns (150 x 2.1 mm, 2.5 µm particle size, Waters Corporation, Milford, MA) connected in parallel. The flow rate was 0.300 mL/min, auto-sampler temperature was kept at 4 °C, and the column compartment was set at 40 °C. The mobile phase was composed of Solvents A (5 mM ammonium acetate in 90%H2O/ 10% acetonitrile + 0.2% acetic acid) and B (5 mM ammonium acetate in 90%acetonitrile/ 10% H2O + 0.2% acetic acid). After the initial 2 min isocratic elution of 90% B, the percentage of Solvent B decreased to 50% at t=5 min. The composition of Solvent B maintained at 50% for 4 min (t=9 min), and then the percentage of B gradually went back to 90%, to prepare for the next injection. Targeted data acquisition was performed in multiple-reaction-monitoring (MRM) mode. The LC-MS system was controlled by Analyst 1.5 software (AB Sciex). The extracted MRM peaks were integrated using MultiQuant 2.1 software (AB Sciex). Samples were spiked with 13C internal standards, and two types of LC-MS/MS quality control (QC) samples were run at 11 evenly-spaced intervals throughout the run to track potential drift in the assay. One QC sample was a pool of 10 fly samples, and the other was a sample of human serum. The CV for these QCs was 8.2% and 7.7% respectively
Instrument Name:	Agilent 1260
Column Name:	Waters Xbridge BEH HILIC (75 x 2.1mm,2.5um)
Column Temperature:	40
Flow Rate:	0.300 mL/min
Internal Standard:	13C
Solvent A:	90% water/10% acetonitrile; 0.2% acetic acid; 5 mM ammonium acetate
Solvent B:	90% acetonitrile/ 10% water; 0.2% acetic acid; 5 mM ammonium acetate
Chromatography Type:	HILIC

MS:

MS ID:	MS002910
Analysis ID:	AN003130
Instrument Name:	ABI Sciex 5500 QTrap
Instrument Type:	Other
MS Type:	ESI
MS Comments:	Targeted data acquisition was performed in multiple-reaction-monitoring (MRM) mode. The LC-MS system was controlled by Analyst 1.5 software (AB Sciex). The extracted MRM peaks were integrated using MultiQuant 2.1 software (AB Sciex). Both positive and negative ionization modes were used.
Ion Mode:	UNSPECIFIED

MS ID:	MS002911
Analysis ID:	AN003131
Instrument Name:	Agilent 6520 QTOF
Instrument Type:	QTOF
MS Type:	ESI
MS Comments:	The ESI voltage was 3.8 kV, and the m/z scan range was 60-1000. The Q-TOF data were extracted using Agilent MassHunter Qualitative Analysis (version B.07.00), Quantitative Analysis (version B.07.01), and Mass Profiler Professional (MPP, version B.13.00) software. The absolute intensity threshold for the LC-Q-TOF data extraction was 1000, and the mass accuracy limit was set to 10 ppm. Both positive and negative ionization modes were analyzed.
Ion Mode:	POSITIVE

MS ID:	MS002912
Analysis ID:	AN003132
Instrument Name:	Agilent 6520 QTOF
Instrument Type:	QTOF
MS Type:	ESI
MS Comments:	The ESI voltage was 3.8 kV, and the m/z scan range was 60-1000. The Q-TOF data were extracted using Agilent MassHunter Qualitative Analysis (version B.07.00), Quantitative Analysis (version B.07.01), and Mass Profiler Professional (MPP, version B.13.00) software. The absolute intensity threshold for the LC-Q-TOF data extraction was 1000, and the mass accuracy limit was set to 10 ppm. Both positive and negative ionization modes were analyzed.
Ion Mode:	NEGATIVE