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Items: 11

1.

Synthetic glycolate metabolism pathways stimulate crop growth and productivity in the field.

South PF, Cavanagh AP, Liu HW, Ort DR.

Science. 2019 Jan 4;363(6422). pii: eaat9077. doi: 10.1126/science.aat9077. Epub 2019 Jan 3. Erratum in: Science. 2019 Aug 2;365(6452):.

PMID:
30606819
2.

Optimizing photorespiration for improved crop productivity.

South PF, Cavanagh AP, Lopez-Calcagno PE, Raines CA, Ort DR.

J Integr Plant Biol. 2018 Dec;60(12):1217-1230. doi: 10.1111/jipb.12709. Epub 2018 Nov 5. Review.

PMID:
30126060
3.

Overexpressing the H-protein of the glycine cleavage system increases biomass yield in glasshouse and field-grown transgenic tobacco plants.

López-Calcagno PE, Fisk S, Brown KL, Bull SE, South PF, Raines CA.

Plant Biotechnol J. 2019 Jan;17(1):141-151. doi: 10.1111/pbi.12953. Epub 2018 Jul 22.

4.

Bile Acid Sodium Symporter BASS6 Can Transport Glycolate and Is Involved in Photorespiratory Metabolism in Arabidopsis thaliana.

South PF, Walker BJ, Cavanagh AP, Rolland V, Badger M, Ort DR.

Plant Cell. 2017 Apr;29(4):808-823. doi: 10.1105/tpc.16.00775. Epub 2017 Mar 28.

5.

Physiological evidence for plasticity in glycolate/glycerate transport during photorespiration.

Walker BJ, South PF, Ort DR.

Photosynth Res. 2016 Jul;129(1):93-103. doi: 10.1007/s11120-016-0277-3. Epub 2016 Jun 1.

6.

Standards for plant synthetic biology: a common syntax for exchange of DNA parts.

Patron NJ, Orzaez D, Marillonnet S, Warzecha H, Matthewman C, Youles M, Raitskin O, Leveau A, Farré G, Rogers C, Smith A, Hibberd J, Webb AA, Locke J, Schornack S, Ajioka J, Baulcombe DC, Zipfel C, Kamoun S, Jones JD, Kuhn H, Robatzek S, Van Esse HP, Sanders D, Oldroyd G, Martin C, Field R, O'Connor S, Fox S, Wulff B, Miller B, Breakspear A, Radhakrishnan G, Delaux PM, Loqué D, Granell A, Tissier A, Shih P, Brutnell TP, Quick WP, Rischer H, Fraser PD, Aharoni A, Raines C, South PF, Ané JM, Hamberger BR, Langdale J, Stougaard J, Bouwmeester H, Udvardi M, Murray JA, Ntoukakis V, Schäfer P, Denby K, Edwards KJ, Osbourn A, Haseloff J.

New Phytol. 2015 Oct;208(1):13-9. doi: 10.1111/nph.13532. Epub 2015 Jul 14. Erratum in: New Phytol. 2016 Jan;209(2):885.

7.

Immediate chromatin immunoprecipitation and on-bead quantitative PCR analysis: a versatile and rapid ChIP procedure.

Harmeyer KM, South PF, Bishop B, Ogas J, Briggs SD.

Nucleic Acids Res. 2015 Mar 31;43(6):e38. doi: 10.1093/nar/gku1347. Epub 2014 Dec 24.

8.

H3K4 methyltransferase Set1 is involved in maintenance of ergosterol homeostasis and resistance to Brefeldin A.

South PF, Harmeyer KM, Serratore ND, Briggs SD.

Proc Natl Acad Sci U S A. 2013 Mar 12;110(11):E1016-25. doi: 10.1073/pnas.1215768110. Epub 2013 Feb 4.

9.

Charge-based interaction conserved within histone H3 lysine 4 (H3K4) methyltransferase complexes is needed for protein stability, histone methylation, and gene expression.

Mersman DP, Du HN, Fingerman IM, South PF, Briggs SD.

J Biol Chem. 2012 Jan 20;287(4):2652-65. doi: 10.1074/jbc.M111.280867. Epub 2011 Dec 6.

10.

A conserved interaction between the SDI domain of Bre2 and the Dpy-30 domain of Sdc1 is required for histone methylation and gene expression.

South PF, Fingerman IM, Mersman DP, Du HN, Briggs SD.

J Biol Chem. 2010 Jan 1;285(1):595-607. doi: 10.1074/jbc.M109.042697. Epub 2009 Nov 6.

11.

Polyubiquitination of the demethylase Jhd2 controls histone methylation and gene expression.

Mersman DP, Du HN, Fingerman IM, South PF, Briggs SD.

Genes Dev. 2009 Apr 15;23(8):951-62. doi: 10.1101/gad.1769209. Epub 2009 Apr 3.

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