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Items: 50

1.

Transcriptomic response is more sensitive to water deficit in shoots than roots of Vitis riparia (Michx.).

Khadka VS, Vaughn K, Xie J, Swaminathan P, Ma Q, Cramer GR, Fennell AY.

BMC Plant Biol. 2019 Feb 13;19(1):72. doi: 10.1186/s12870-019-1664-7.

2.

The Magnitude of a Community's Health Needs and Nonprofit Hospitals' Progress in Meeting Those Needs: Are We Faced With a Paradox?

Singh SR, Cramer GR, Young GJ.

Public Health Rep. 2018 Jan/Feb;133(1):75-84. doi: 10.1177/0033354917739581. Epub 2017 Dec 11.

3.

The common transcriptional subnetworks of the grape berry skin in the late stages of ripening.

Ghan R, Petereit J, Tillett RL, Schlauch KA, Toubiana D, Fait A, Cramer GR.

BMC Plant Biol. 2017 May 30;17(1):94. doi: 10.1186/s12870-017-1043-1.

4.

The Progress of US Hospitals in Addressing Community Health Needs.

Cramer GR, Singh SR, Flaherty S, Young GJ.

Am J Public Health. 2017 Feb;107(2):255-261. doi: 10.2105/AJPH.2016.303570. Epub 2016 Dec 20.

5.

Towards an open grapevine information system.

Adam-Blondon AF, Alaux M, Pommier C, Cantu D, Cheng ZM, Cramer GR, Davies C, Delrot S, Deluc L, Di Gaspero G, Grimplet J, Fennell A, Londo JP, Kersey P, Mattivi F, Naithani S, Neveu P, Nikolski M, Pezzotti M, Reisch BI, Töpfer R, Vivier MA, Ware D, Quesneville H.

Hortic Res. 2016 Nov 23;3:16056. eCollection 2016. Review.

6.

Phased diploid genome assembly with single-molecule real-time sequencing.

Chin CS, Peluso P, Sedlazeck FJ, Nattestad M, Concepcion GT, Clum A, Dunn C, O'Malley R, Figueroa-Balderas R, Morales-Cruz A, Cramer GR, Delledonne M, Luo C, Ecker JR, Cantu D, Rank DR, Schatz MC.

Nat Methods. 2016 Dec;13(12):1050-1054. doi: 10.1038/nmeth.4035. Epub 2016 Oct 17.

7.
8.

Relative quantification of phosphoproteomic changes in grapevine (Vitis vinifera L.) leaves in response to abscisic acid.

Rattanakan S, George I, Haynes PA, Cramer GR.

Hortic Res. 2016 Jun 22;3:16029. doi: 10.1038/hortres.2016.29. eCollection 2016.

9.
10.

Abscisic acid transcriptomic signaling varies with grapevine organ.

Rattanakon S, Ghan R, Gambetta GA, Deluc LG, Schlauch KA, Cramer GR.

BMC Plant Biol. 2016 Mar 22;16:72. doi: 10.1186/s12870-016-0763-y.

11.

Characterization of major ripening events during softening in grape: turgor, sugar accumulation, abscisic acid metabolism, colour development, and their relationship with growth.

Castellarin SD, Gambetta GA, Wada H, Krasnow MN, Cramer GR, Peterlunger E, Shackel KA, Matthews MA.

J Exp Bot. 2016 Feb;67(3):709-22. doi: 10.1093/jxb/erv483. Epub 2015 Nov 17.

12.

Short day transcriptomic programming during induction of dormancy in grapevine.

Fennell AY, Schlauch KA, Gouthu S, Deluc LG, Khadka V, Sreekantan L, Grimplet J, Cramer GR, Mathiason KL.

Front Plant Sci. 2015 Nov 4;6:834. doi: 10.3389/fpls.2015.00834. eCollection 2015.

13.

Five omic technologies are concordant in differentiating the biochemical characteristics of the berries of five grapevine (Vitis vinifera L.) cultivars.

Ghan R, Van Sluyter SC, Hochberg U, Degu A, Hopper DW, Tillet RL, Schlauch KA, Haynes PA, Fait A, Cramer GR.

BMC Genomics. 2015 Nov 16;16:946. doi: 10.1186/s12864-015-2115-y.

14.

Subfunctionalization of cation/proton antiporter 1 genes in grapevine in response to salt stress in different organs.

Ma Y, Wang J, Zhong Y, Geng F, Cramer GR, Cheng ZM.

Hortic Res. 2015 Jul 15;2:15031. doi: 10.1038/hortres.2015.31. eCollection 2015.

15.

Genes expressed in grapevine leaves reveal latent wood infection by the fungal pathogen Neofusicoccum parvum.

Czemmel S, Galarneau ER, Travadon R, McElrone AJ, Cramer GR, Baumgartner K.

PLoS One. 2015 Mar 23;10(3):e0121828. doi: 10.1371/journal.pone.0121828. eCollection 2015.

16.

Cultivar specific metabolic changes in grapevines berry skins in relation to deficit irrigation and hydraulic behavior.

Hochberg U, Degu A, Cramer GR, Rachmilevitch S, Fait A.

Plant Physiol Biochem. 2015 Mar;88:42-52. doi: 10.1016/j.plaphy.2015.01.006. Epub 2015 Jan 23.

PMID:
25635762
17.

Transcriptomic analysis of the late stages of grapevine (Vitis vinifera cv. Cabernet Sauvignon) berry ripening reveals significant induction of ethylene signaling and flavor pathways in the skin.

Cramer GR, Ghan R, Schlauch KA, Tillett RL, Heymann H, Ferrarini A, Delledonne M, Zenoni S, Fasoli M, Pezzotti M.

BMC Plant Biol. 2014 Dec 19;14:370. doi: 10.1186/s12870-014-0370-8.

18.

The grapevine gene nomenclature system.

Grimplet J, Adam-Blondon AF, Bert PF, Bitz O, Cantu D, Davies C, Delrot S, Pezzotti M, Rombauts S, Cramer GR.

BMC Genomics. 2014 Dec 6;15:1077. doi: 10.1186/1471-2164-15-1077.

19.

Metabolite and transcript profiling of berry skin during fruit development elucidates differential regulation between Cabernet Sauvignon and Shiraz cultivars at branching points in the polyphenol pathway.

Degu A, Hochberg U, Sikron N, Venturini L, Buson G, Ghan R, Plaschkes I, Batushansky A, Chalifa-Caspi V, Mattivi F, Delledonne M, Pezzotti M, Rachmilevitch S, Cramer GR, Fait A.

BMC Plant Biol. 2014 Jul 26;14:188. doi: 10.1186/s12870-014-0188-4.

20.

A rapid dehydration leaf assay reveals stomatal response differences in grapevine genotypes.

Hopper DW, Ghan R, Cramer GR.

Hortic Res. 2014 Jan 22;1:2. doi: 10.1038/hortres.2014.2. eCollection 2014.

21.

Plant proteogenomics: from protein extraction to improved gene predictions.

Chapman B, Castellana N, Apffel A, Ghan R, Cramer GR, Bellgard M, Haynes PA, Van Sluyter SC.

Methods Mol Biol. 2013;1002:267-94. doi: 10.1007/978-1-62703-360-2_21.

PMID:
23625410
22.

Proteomic analysis indicates massive changes in metabolism prior to the inhibition of growth and photosynthesis of grapevine (Vitis vinifera L.) in response to water deficit.

Cramer GR, Van Sluyter SC, Hopper DW, Pascovici D, Keighley T, Haynes PA.

BMC Plant Biol. 2013 Mar 21;13:49. doi: 10.1186/1471-2229-13-49.

23.

Effects of abiotic stress on plants: a systems biology perspective.

Cramer GR, Urano K, Delrot S, Pezzotti M, Shinozaki K.

BMC Plant Biol. 2011 Nov 17;11:163. doi: 10.1186/1471-2229-11-163. Review.

24.

The Vitis vinifera C-repeat binding protein 4 (VvCBF4) transcriptional factor enhances freezing tolerance in wine grape.

Tillett RL, Wheatley MD, Tattersall EA, Schlauch KA, Cramer GR, Cushman JC.

Plant Biotechnol J. 2012 Jan;10(1):105-24. doi: 10.1111/j.1467-7652.2011.00648.x. Epub 2011 Sep 13.

25.

Compatible GLRaV-3 viral infections affect berry ripening decreasing sugar accumulation and anthocyanin biosynthesis in Vitis vinifera.

Vega A, Gutiérrez RA, Peña-Neira A, Cramer GR, Arce-Johnson P.

Plant Mol Biol. 2011 Oct;77(3):261-74. doi: 10.1007/s11103-011-9807-8. Epub 2011 Jul 24.

PMID:
21786204
26.

Identification of tissue-specific, abiotic stress-responsive gene expression patterns in wine grape (Vitis vinifera L.) based on curation and mining of large-scale EST data sets.

Tillett RL, Ergül A, Albion RL, Schlauch KA, Cramer GR, Cushman JC.

BMC Plant Biol. 2011 May 18;11:86. doi: 10.1186/1471-2229-11-86.

27.

Water deficit increases stilbene metabolism in Cabernet Sauvignon berries.

Deluc LG, Decendit A, Papastamoulis Y, Mérillon JM, Cushman JC, Cramer GR.

J Agric Food Chem. 2011 Jan 12;59(1):289-97. doi: 10.1021/jf1024888. Epub 2010 Dec 3.

28.

VitisNet: "Omics" integration through grapevine molecular networks.

Grimplet J, Cramer GR, Dickerson JA, Mathiason K, Van Hemert J, Fennell AY.

PLoS One. 2009 Dec 21;4(12):e8365. doi: 10.1371/journal.pone.0008365.

29.

Regulation of malate metabolism in grape berry and other developing fruits.

Sweetman C, Deluc LG, Cramer GR, Ford CM, Soole KL.

Phytochemistry. 2009 Jul-Aug;70(11-12):1329-44. doi: 10.1016/j.phytochem.2009.08.006. Epub 2009 Sep 15. Review.

PMID:
19762054
30.

Water deficit alters differentially metabolic pathways affecting important flavor and quality traits in grape berries of Cabernet Sauvignon and Chardonnay.

Deluc LG, Quilici DR, Decendit A, Grimplet J, Wheatley MD, Schlauch KA, Mérillon JM, Cushman JC, Cramer GR.

BMC Genomics. 2009 May 8;10:212. doi: 10.1186/1471-2164-10-212.

31.

Proteomic and selected metabolite analysis of grape berry tissues under well-watered and water-deficit stress conditions.

Grimplet J, Wheatley MD, Jouira HB, Deluc LG, Cramer GR, Cushman JC.

Proteomics. 2009 May;9(9):2503-28. doi: 10.1002/pmic.200800158.

32.

Transcriptomic and metabolite analyses of Cabernet Sauvignon grape berry development.

Deluc LG, Grimplet J, Wheatley MD, Tillett RL, Quilici DR, Osborne C, Schooley DA, Schlauch KA, Cushman JC, Cramer GR.

BMC Genomics. 2007 Nov 22;8:429.

33.

CBF4 is a unique member of the CBF transcription factor family of Vitis vinifera and Vitis riparia.

Xiao H, Tattersall EA, Siddiqua MK, Cramer GR, Nassuth A.

Plant Cell Environ. 2008 Jan;31(1):1-10. Epub 2007 Oct 30.

34.

Tissue-specific mRNA expression profiling in grape berry tissues.

Grimplet J, Deluc LG, Tillett RL, Wheatley MD, Schlauch KA, Cramer GR, Cushman JC.

BMC Genomics. 2007 Jun 21;8:187.

35.

Transcript abundance profiles reveal larger and more complex responses of grapevine to chilling compared to osmotic and salinity stress.

Tattersall EA, Grimplet J, DeLuc L, Wheatley MD, Vincent D, Osborne C, Ergül A, Lomen E, Blank RR, Schlauch KA, Cushman JC, Cramer GR.

Funct Integr Genomics. 2007 Oct;7(4):317-33. Epub 2007 Jun 20.

PMID:
17578611
36.

Proteomic analysis reveals differences between Vitis vinifera L. cv. Chardonnay and cv. Cabernet Sauvignon and their responses to water deficit and salinity.

Vincent D, Ergül A, Bohlman MC, Tattersall EA, Tillett RL, Wheatley MD, Woolsey R, Quilici DR, Joets J, Schlauch K, Schooley DA, Cushman JC, Cramer GR.

J Exp Bot. 2007;58(7):1873-92. Epub 2007 Apr 18.

PMID:
17443017
37.

Water and salinity stress in grapevines: early and late changes in transcript and metabolite profiles.

Cramer GR, Ergül A, Grimplet J, Tillett RL, Tattersall EA, Bohlman MC, Vincent D, Sonderegger J, Evans J, Osborne C, Quilici D, Schlauch KA, Schooley DA, Cushman JC.

Funct Integr Genomics. 2007 Apr;7(2):111-34. Epub 2006 Nov 29.

PMID:
17136344
38.

Optimization of protein extraction and solubilization for mature grape berry clusters.

Vincent D, Wheatley MD, Cramer GR.

Electrophoresis. 2006 May;27(9):1853-65.

PMID:
16586412
39.

Characterizing the grape transcriptome. Analysis of expressed sequence tags from multiple Vitis species and development of a compendium of gene expression during berry development.

da Silva FG, Iandolino A, Al-Kayal F, Bohlmann MC, Cushman MA, Lim H, Ergul A, Figueroa R, Kabuloglu EK, Osborne C, Rowe J, Tattersall E, Leslie A, Xu J, Baek J, Cramer GR, Cushman JC, Cook DR.

Plant Physiol. 2005 Oct;139(2):574-97.

40.

Investigation of effects of trifluoroacetate on vernal pool ecosystems.

Benesch JA, Gustin MS, Cramer GR, Cahill TM.

Environ Toxicol Chem. 2002 Mar;21(3):640-7.

PMID:
11878478
41.

Water relations and leaf expansion: importance of time scale.

Munns R, Passioura JB, Guo J, Chazen O, Cramer GR.

J Exp Bot. 2000 Sep;51(350):1495-504.

PMID:
11006301
42.

Maximal biomass of Arabidopsis thaliana using a simple, low-maintenance hydroponic method and favorable environmental conditions.

Gibeaut DM, Hulett J, Cramer GR, Seemann JR.

Plant Physiol. 1997 Oct;115(2):317-9. No abstract available.

44.
45.

Transport Properties of the Tomato Fruit Tonoplast : III. Temperature Dependence of Calcium Transport.

Joyce DC, Cramer GR, Reid MS, Bennett AB.

Plant Physiol. 1988 Dec;88(4):1097-103.

46.

Influx of na, k, and ca into roots of salt-stressed cotton seedlings : effects of supplemental ca.

Cramer GR, Lynch J, Läuchli A, Epstein E.

Plant Physiol. 1987 Mar;83(3):510-6.

47.

Salinity reduces membrane-associated calcium in corn root protoplasts.

Lynch J, Cramer GR, Läuchli A.

Plant Physiol. 1987 Feb;83(2):390-4.

48.

Effects of NaCl and CaCl(2) on Cell Enlargement and Cell Production in Cotton Roots.

Kurth E, Cramer GR, Läuchli A, Epstein E.

Plant Physiol. 1986 Dec;82(4):1102-6.

49.
50.

Displacement of ca by na from the plasmalemma of root cells : a primary response to salt stress?

Cramer GR, Läuchli A, Polito VS.

Plant Physiol. 1985 Sep;79(1):207-11.

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