Summary of Study ST000258

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 PR000210. The data can be accessed directly via it's Project DOI: 10.21228/M87W2S 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	ST000258
Study Title	Metabolic contribution of pSymA and pSymB megaplasmid/chromid for multipartite Sinorhizobium meliloti cultured in minimal M9 medium
Study Type	megaplasmid deletion
Study Summary	To understand the contribution of pSymA and pSymB to the metabolism of S. meliloti, the intracellular metabolome was analyzed at five time points (exponential and stationary growth phases) across the growth curve of strains with or without pSymA and/or pSymB grown in a defined, minimal medium (M9).
Institute	McMaster University
Department	Department of Biology
Last Name	Finan
First Name	Turlough
Address	Department of Biology, McMaster University, Hamilton, Canada L8S4K1
Email	finan@mcmaster.ca
Phone	(+1)905-525-9140 ext 22932
Submit Date	2015-09-17
Num Groups	20
Total Subjects	115
Raw Data Available	Yes
Raw Data File Type(s)	mzXML
Analysis Type Detail	LC-MS
Release Date	2015-10-26
Release Version	1

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Project:

Project ID:	PR000210
Project DOI:	doi: 10.21228/M87W2S
Project Title:	Effects of synthetic large-scale genome reduction on metabolism and metabolic preferences in a nutritionally complex environment
Project Summary:	The soil bacterium Sinorhizobium meliloti forms nodules on the roots of leguminous plants, where N2 is reduced to ammonia. Its genome includes a 3.65 Mb chromosome, a 1.35 Mb pSymA megaplasmid, and a 1.68 Mb pSymB chromid. pSymA and pSymB constitute ~45% of the genome and here a non-targeted approach was used to identify the metabolic consequences of the removal of these replicons. Polar and non-polar metabolites from wild-type, ∆pSymA, ∆pSymB, and ∆pSymAB cells and supernatants across a growth curve were analyzed by LC-HILIC-TOF-MS. 2008 metabolite features were identified in the extracellular metabolome of cells grown in LBmc containing yeast extract and casein hydrolysate. 1474 features were found from the intracellular metabolites of cells grown in minimal M9-sucrose medium. Analysis revealed both time and genotype influenced the metabolome, with the removal of pSymB having a much greater effect than the loss of pSymA. Strains lacking pSymB showed an increase in sugar, amino acid, and nucleotide metabolites in the intracellular metabolome, and the loss of pSymB clearly impaired the cell’s ability to catabolize exogenous amino acids. We conclude that despite the ability of wild-type, ∆pSymA, ∆pSymB, and ∆pSymAB strains to grow in both M9-sucrose and LBmc media, the removal of pSymA, and particularly pSymB, had clear and dramatic effects on the S. meliloti metabolome. The larger effect associated with the pSymB chromid is consistent with the large number of metabolic genes on this replicon and the greater genetic and metabolic integration of this replicon with the S. meliloti chromosome.
Institute:	McMaster University
Department:	Department of Biology
Last Name:	Finan
First Name:	Turlough
Address:	Department of Biology, McMaster University, Hamilton, Canada L8S4K1
Email:	finan@mcmaster.ca
Phone:	(+1)905-525-9140 ext 22932

Subject:

Subject ID:	SU000278
Subject Type:	Bacterial cells
Subject Species:	Sinorhizobium meliloti
Taxonomy ID:	382
Genotype Strain:	Rm2011 (SU47 str-3)\|SmA818\|RmP3009\|RmP2917
Human Ethnicity:	wild type\|Rm2011 lack pSymA\|Rm2011 lack pSymB\|Rm2011 lack pSymA and pSymB \| a tRNAarg and the smb20996-engA operon from pSymB were integrated to chromosome in strains RmP3009 and RmP2917
Species Group:	Microorganism

Factors:

Subject type: Bacterial cells; Subject species: Sinorhizobium meliloti (Factor headings shown in green)

mb_sample_id	local_sample_id	strains
SA011773	A_M2d	ΔpSymA
SA011774	A_M2c	ΔpSymA
SA011775	A_M2e	ΔpSymA
SA011776	A_M2f	ΔpSymA
SA011777	A_M3b	ΔpSymA
SA011778	A_M3a	ΔpSymA
SA011779	A_M2b	ΔpSymA
SA011780	A_M2a	ΔpSymA
SA011781	A_M1c	ΔpSymA
SA011782	A_M1b	ΔpSymA
SA011783	A_M1d	ΔpSymA
SA011784	A_M1e	ΔpSymA
SA011785	A_M1f	ΔpSymA
SA011786	A_M3c	ΔpSymA
SA011787	A_M3d	ΔpSymA
SA011788	A_M5a	ΔpSymA
SA011789	A_M4f	ΔpSymA
SA011790	A_M5b	ΔpSymA
SA011791	A_M5c	ΔpSymA
SA011792	A_M5f	ΔpSymA
SA011793	A_M5e	ΔpSymA
SA011794	A_M4e	ΔpSymA
SA011795	A_M4d	ΔpSymA
SA011796	A_M3f	ΔpSymA
SA011797	A_M3e	ΔpSymA
SA011798	A_M4a	ΔpSymA
SA011799	A_M4b	ΔpSymA
SA011800	A_M4c	ΔpSymA
SA011801	A_M1a	ΔpSymA
SA011802	A_M5d	ΔpSymA
SA011803	AB_M2e	ΔpSymAB
SA011804	AB_M2d	ΔpSymAB
SA011805	AB_M2f	ΔpSymAB
SA011806	AB_M3a	ΔpSymAB
SA011807	AB_M3b	ΔpSymAB
SA011808	AB_M2c	ΔpSymAB
SA011809	AB_M2a	ΔpSymAB
SA011810	AB_M1b	ΔpSymAB
SA011811	AB_M1a	ΔpSymAB
SA011812	AB_M1c	ΔpSymAB
SA011813	AB_M1d	ΔpSymAB
SA011814	AB_M1e	ΔpSymAB
SA011815	AB_M3c	ΔpSymAB
SA011816	AB_M2b	ΔpSymAB
SA011817	AB_M5c	ΔpSymAB
SA011818	AB_M5a	ΔpSymAB
SA011819	AB_M5d	ΔpSymAB
SA011820	AB_M5e	ΔpSymAB
SA011821	AB_M3d	ΔpSymAB
SA011822	AB_M4e	ΔpSymAB
SA011823	AB_M5b	ΔpSymAB
SA011824	AB_M4b	ΔpSymAB
SA011825	AB_M4a	ΔpSymAB
SA011826	AB_M4c	ΔpSymAB
SA011827	AB_M3e	ΔpSymAB
SA011828	AB_M4d	ΔpSymAB
SA011829	B_M4a	ΔpSymB
SA011830	B_M4b	ΔpSymB
SA011831	B_M4c	ΔpSymB
SA011832	B_M3f	ΔpSymB
SA011833	B_M3e	ΔpSymB
SA011834	B_M3c	ΔpSymB
SA011835	B_M3d	ΔpSymB
SA011836	B_M4d	ΔpSymB
SA011837	B_M5e	ΔpSymB
SA011838	B_M5d	ΔpSymB
SA011839	B_M3b	ΔpSymB
SA011840	B_M5c	ΔpSymB
SA011841	B_M5b	ΔpSymB
SA011842	B_M4f	ΔpSymB
SA011843	B_M5a	ΔpSymB
SA011844	B_M4e	ΔpSymB
SA011845	B_M3a	ΔpSymB
SA011846	B_M1e	ΔpSymB
SA011847	B_M1f	ΔpSymB
SA011848	B_M1c	ΔpSymB
SA011849	B_M1b	ΔpSymB
SA011850	B_M1a	ΔpSymB
SA011851	B_M2a	ΔpSymB
SA011852	B_M1d	ΔpSymB
SA011853	B_M2e	ΔpSymB
SA011854	B_M2b	ΔpSymB
SA011855	B_M2d	ΔpSymB
SA011856	B_M2f	ΔpSymB
SA011857	B_M2c	ΔpSymB
SA011858	WT_M4b	wild type
SA011859	WT_M4c	wild type
SA011860	WT_M4a	wild type
SA011861	WT_M3e	wild type
SA011862	WT_M3d	wild type
SA011863	WT_M4d	wild type
SA011864	WT_M3f	wild type
SA011865	WT_M5e	wild type
SA011866	WT_M5d	wild type
SA011867	WT_M3c	wild type
SA011868	WT_M5c	wild type
SA011869	WT_M5b	wild type
SA011870	WT_M4f	wild type
SA011871	WT_M5a	wild type
SA011872	WT_M4e	wild type

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Collection:

Collection ID:	CO000271
Collection Summary:	-
Sample Type:	cells
Volumeoramount Collected:	6 x 108 cells
Storage Conditions:	-80ºC freezer
Collection Vials:	eppendorf tube
Tissue Cell Identification:	6 x 108 cells

Treatment:

Treatment ID:	TR000291
Animal Vet Treatments:	-80ºC freezer
Animal Anesthesia:	test tube
Animal Endp Tissue Proc Method:	M9 miminal medium plus 10 mM sucrose
Animal Endp Clinical Signs:	n/a
Human Fasting:	30ºC incubator
Human Endp Clinical Signs:	OD600 values of approximately 0.3, 0.5, 0.9, 1.6, and 3.5 (except for Rm2011 which reached ~4.8)

Sample Preparation:

Sampleprep ID:	SP000285
Sampleprep Summary:	-
Sampleprep Protocol Filename:	Fei,_F.,_Bowdish,_D._M._E.,_&_McCarry,_B._E._(2014)._Analytical_and_Bioanalytical_Chemistry,_406,_37233733.
Extraction Method:	cell pellet extracted with 2:2:1 MeOH/EtOH/H2O with beadbeating
Extract Storage:	-80ºC freezer
Sample Resuspension:	cell extracts suspended 60%v/v acetonitrile/water
Sample Spiking:	L-methionine-d3, L-tryptophan-d5 as standards for recovery determination ; L-phenylalanine-d8, diphenylalanine and glycine-phenylalanine as internal standards for peak area normalization
Cell Type:	Gram negative bacterium

Combined analysis:

Analysis ID	AN000409	AN000410
Analysis type	MS	MS
Chromatography type	HILIC	HILIC
Chromatography system	Agilent 1200 RR Series II	Agilent 1200 RR Series II
Column	Phenomenex Kinetex HILIC 100A (50 x 2.1 mm,2.6um)	Phenomenex Kinetex HILIC 100A (50 x 2.1 mm,2.6um)
MS Type	ESI	ESI
MS instrument type	QTOF	QTOF
MS instrument name	Bruker MicrOTOF II	Bruker MicrOTOF II
Ion Mode	POSITIVE	NEGATIVE
Units	normalized peak area	normalized peak area

Chromatography:

Chromatography ID:	CH000290
Methods Filename:	Opt_silicaHILIC.m
Instrument Name:	Agilent 1200 RR Series II
Column Name:	Phenomenex Kinetex HILIC 100A (50 x 2.1 mm,2.6um)
Column Temperature:	40C
Flow Gradient:	0-0.5 min, 95%A; 0.5-12.5 min, 35%A; 12.5-13.0 min, 35%A; 13.0-14.0 min, 95%A; 14.0-24.0 min, 95%A
Flow Rate:	200 ?L/min
Internal Standard:	L-phenylalanine-d8, diphenylalanine and glycine-phenylalanine
Sample Injection:	2 ?L
Solvent A:	100% acetonitrile
Solvent B:	100% water;10 mM ammonium acetate, adjust to pH 3 with formic acid
Analytical Time:	24 min
Chromatography Type:	HILIC

MS:

MS ID:	MS000351
Analysis ID:	AN000409
Instrument Name:	Bruker MicrOTOF II
Instrument Type:	QTOF
MS Type:	ESI
Ion Mode:	POSITIVE
Capillary Voltage:	-3800 V
Dry Gas Flow:	8.0 L/min
Dry Gas Temp:	250ºC
Scan Range Moverz:	50-1000 m/z

MS ID:	MS000352
Analysis ID:	AN000410
Instrument Name:	Bruker MicrOTOF II
Instrument Type:	QTOF
MS Type:	ESI
Ion Mode:	NEGATIVE
Capillary Voltage:	4500 V
Dry Gas Flow:	8.0 L/min
Dry Gas Temp:	250ºC
Scan Range Moverz:	50-1000 m/z