Correction: HPLC-MS/MS Analyses Show That the Near-Starchless aps1 and pgm Leaves Accumulate Wild Type Levels of ADPglucose: Further Evidence for the Occurrence of Important ADPglucose Biosynthetic Pathway(s) Alternative to the pPGI-pPGM-AGP Pathway

PLOS ONE, Dec 2019

The PLOS ONE Staff

A PDF file should load here. If you do not see its contents the file may be temporarily unavailable at the journal website or you do not have a PDF plug-in installed and enabled in your browser.

Alternatively, you can download the file locally and open with any standalone PDF reader:

https://journals.plos.org/plosone/article/file?id=10.1371/journal.pone.0121181&type=printable

Correction: HPLC-MS/MS Analyses Show That the Near-Starchless aps1 and pgm Leaves Accumulate Wild Type Levels of ADPglucose: Further Evidence for the Occurrence of Important ADPglucose Biosynthetic Pathway(s) Alternative to the pPGI-pPGM-AGP Pathway

March Correction: HPLC-MS/MS Analyses Show That the Near-Starchless aps1 and pgm Leaves Accumulate Wild Type Levels of ADPglucose: Further Evidence for the Occurrence of Important ADPglucose Biosynthetic Pathway(s) Alternative to the pPGI-pPGM- AGP Pathway The PLOS ONE Staff Reference 78 and 79 are incorrectly switched. The information in reference 78 should be in reference 79 and the information in reference 79 should be in reference 78. The correct reference 78 is: Bahaji A, Snchez-Lpez AM, Muoz FJ, Baroja-Fernndez E, Li J, et al. (2014) Reevaluating the involvement of plastidic phosphoglucoseisomerase in starch biosynthesis in mesophyll cells. XII Plant Molecular Biology Meeting, Cartagena, Spain. The correct reference 79 is: Bahaji A, Snchez-Lpez AM, Li J, Baroja-Fernndez E, Muoz FJ, et al. (2013) The CalvinBenson cycle is not directly linked to transitory starch biosynthesis by means of phosphoglucose isomerase in plants exposed to microbial volatiles. XIII Spain-Portugal Congress on Plant Physiology (24-27 July 2013, Lisbon, Portugal). There is an error in the legend for Fig. 4. Please see the complete, corrected Fig. 4 here. - Fig 4. Ectopic expression of EcASPP and AtADPGP in the plastid restores the WT growth and partially reverts the ADPG excess phenotype of ss3/ ss4 plants. (A) Time-course of fresh weight of rosettes of WT () and ss3/ss4 () plants, and rosettes of one representative line each of TP-P541-AtADPGP expressing ss3/ss4 plants and TP-P541-EcASPP expressing ss3/ss4 plants ( and , respectively). Plants were grown under long-day conditions (16 h light/8 h dark, 20C) and at an irradiance of 90 mol photons sec1 m2. Values represent the mean SD of determinations on five independent plants. (B) ADPG content in WT, ss3/ss4/aps1 and ss3/ss4 leaves, and leaves of plants of two independent TP-P541-EcASPP- and TP-P541-AtADPGP- expressing ss3/ss4 lines. Leaves were harvested after 10 h of illumination. Values represent the mean SD of determinations on three independent samples. 1. Bahaji A , Baroja-Fernndez E , Snchez-Lpez M , Muoz FJ , Li J , Almagro G , et al. ( 2014 ) HPLCMS/MS Analyses Show That the Near-Starchless aps1 and pgm Leaves Accumulate Wild Type Levels of ADPglucose: Further Evidence for the Occurrence of Important ADPglucose Biosynthetic Pathway(s) Alternative to the pPGI-pPGM-AGP Pathway . PLoS ONE 9 ( 8 ) : e104997 . doi:10.1371/ journal. pone.0104997 PMID: 25133777 (...truncated)


This is a preview of a remote PDF: https://journals.plos.org/plosone/article/file?id=10.1371/journal.pone.0121181&type=printable

The PLOS ONE Staff. Correction: HPLC-MS/MS Analyses Show That the Near-Starchless aps1 and pgm Leaves Accumulate Wild Type Levels of ADPglucose: Further Evidence for the Occurrence of Important ADPglucose Biosynthetic Pathway(s) Alternative to the pPGI-pPGM-AGP Pathway, PLOS ONE, 2015, 3, DOI: 10.1371/journal.pone.0121181