Research @ UC Davis:
Grubb CD, Abel S (2006) Glucosinolate
metabolism and its control.
Trends
Plant Sci 11:89-100
Abel S, Savchenko T, Levy M (2005) Genome-wide comparative analysis of
the IQD gene families in Arabidopsis thaliana and Oryza
sativa
BMC
Evolutionary Biology 5:72 (1-25)
Levy M, Rachmilevitch S, Abel S (2005) Transient Agrobacterium-mediated
gene expression in the Arabidopsis hydroponics root system for subcellular
localization studies.
Plant Mol Bio
Rep 23:179-184
Levy M, Wang Q, Kaspi R, Parrella MP, Abel S (2005) Arabidopsis IQD1,
a novel calmodulin-binding nuclear protein, stimulates glucosinolate accumulation
and plant defense.
Plant
J 43:79-96
Grubb CD, Zipp BJ, Ludwig-Müller J, Masuno MN, Molinski TF, Abel S (2005) Arabidopsis glucosyltransferase UGT74B1 functions in glucosinolate biosynthesis and auxin homeostasis. Plant J 40:893-908
Ebeler SE, Dingley KH, Ubick E, Abel S, Mitchell AE, Burns SA, Steinberg
FM, Clifford AJ (2005) Animal models and analytical approaches for understanding
the relationships between wine and cancer.
Drugs
Exptl Clin Res 31:19-27
Ticconi CA, Abel S (2004) Short on phosphate: plant surveillance and countermeasures.
Trends
Plant Sci 9:548-55
Ticconi CA, Delatorre CA, Lahner B, Salt DE, Abel S (2004) Arabidopsis
pdr2 reveals a phosphate-sensitive checkpoint in root development.
Plant
J 37:801-814
Dingley KH, Ubick EA, Chiarappa-Zucca ML, Nowell S, Abel S, Ebeler SE,
Mitchell AE, Burns SA, Steinberg FM, AJ Clifford (2003) Effect of dietary
constituents with chemopreventive potential on adduct formation of a low
dose of the heterocyclic amines PhIP and IQ and Phase II hepatic enzymes.
Nutr & Cancer
46:212-221
Wang Q, Grubb CD, Abel S (2002) Direct analysis of single leaf disks for
chemopreventive glucosinolates.
Phytochem
Anal 13:152-157
Abel S, Ticconi CA, Delatorre CA (2002) Phosphate sensing in higher plants.
Physiol
Plant 115:1-8
Grubb CD, Gross HB, Chen DL, Abel S (2002) Identification of Arabidopsis
mutants with altered glucosinolate profiles based on isothiocyanate bioactivity.
Plant
Sci 162:143-152
Laskowski MJ, Dreher KA, Gehring M, Abel S, Gensler A, Sussex IM (2002)
FQR1, a novel primary auxin-response gene, encodes an FMN-binding quinone
reductase.
Plant
Physiol 128:578-590
Ticconi CA, Delatorre CA, Abel S (2001) Attenuation of phosphate starvation
responses by phosphite in Arabidopsis.
Plant
Physiol 127:963-72
Abel S and M Köck (2001) Secretory ribonucleases from tomato (Lycopersicon
esculentum cv. Mill.).
Meth
Enzymol 341:351-368
Li G, GS Goyal, S Abel, Quiros
CF (2001) Inheritance of three major genes involved in the synthesis
of aliphatic glucosinolates in Brassica oleracea
J
Amer Soc Hort Sci 126:427-431
Colon-Carmona A, DL Chen, KC Yeh, Abel S (2000) Aux/IAA proteins are phosphorylated
by phytochrome in vitro.
Plant
Physiol 124:1728-1738
Gross HB, Dalebout T, Grubb CD, Abel S (2000) Functional detection of
chemopreventive glucosinolates in Arabidopsis thaliana.
Plant
Sci 159:265-272
Chen DL, CA Delatorre, A Bakker, Abel S (2000) Conditional identification
of phosphate starvation-response mutants in Arabidopsis thaliana.
Planta
211:13-22
Morgan KE, TI Zarembinski, A Theologis, Abel S (1999) Biochemical characterization
of recombinant polypeptides corresponding to the predicted beta-alpha-alpha
fold in Aux/IAA proteins.
FEBS
Lett 454:283-287
Research @ UC Berkeley:
Abel S, Theologis A (1996) Early genes and auxin action.
Plant
Physiol 111:9-17
Abel S, N Ballas, L-M Wong, Theologis A (1996) DNA elements responsive
to auxin.
BioEssays
18:647-654
Abel S, Theologis A (1996) Transient gene expression in protoplasts of Arabidopsis
thaliana.
Meth
Mol Biol 82:209-217
Wong L-M, S Abel, N Shen, M de la Foata, Y Mal, Theologis A (1996) Differential
activation of the primary auxin response genes, PS-IAA4/5 and PS-IAA6,
during early plant development.
Plant
J 9:587-599
Abel S, MD Nguyen, Theologis A (1995) The PS-IAA4/5-like family
of early auxin-inducible mRNAs in Arabidopsis thaliana.
J
Mol Biol 251:533-549
Abel S, MD Nguyen, W Chow, Theologis A (1995) ACS4, a primary
auxin-responsive gene encoding 1-aminocyclopropane-1-carboxylate synthase
in Arabidopsis thaliana.
J Biol Chem
270:19093-19099
Abel S, Theologis A (1995) A polymorphic bipartite motif signals nuclear
targeting of early auxin-inducible proteins related to PS-IAA4 from pea
(Pisum sativum).
Plant
J 8:87-96
Abel S, Theologis A (1994) Transient transformation of Arabidopsis leaf
protoplasts: a versatile experimental system to study gene expression.
Plant
J 5:421-427
Abel S, PW Oeller, Theologis A (1994) Early auxin-induced genes encode
short-lived nuclear proteins.
Proc
Natl Acad Sci USA 91:326-330
Abel S, Theologis A (1994) Early auxin regulated gene expression in Arabidopsis.
NATO
ASI Series H81:183-192
Theologis A, TI Zarembinski, PW Oeller, X Liang, Abel S (1992) Modification
of fruit ripening by suppressing gene expression.
Plant
Physiol 100:549-551
Liang X, S Abel, JA Keller, NF Shen, Theologis A (1992) The 1-aminocyclopropane-1-carboxylate
synthase family of Arabidopsis thaliana.
Proc
Natl Acad Sci USA 89:11046-11050
Research in Hungary:
Abel S, T Kiss, Solymosy F (1989) Molecular analysis of eight U1 RNA gene
candidates from tomato that could be potentially transcribed into U1 RNA
sequence variants differing from each other in similar regions of secondary
structure.
Nucleic
Acids Res 17:6319-6337
Kiss T, S Abel, Solymosy F (1989) A plant pseudogene for U1 RNA.
Plant
Mol Biol 12:709-712
Kiss T, M Kis, S Abel, Solymosy
F (1988) Nucleotide sequence of the 17S-25S spacer region from tomato
rDNA.
Nucleic Acids Res 16:7179
Research in (East) Germany:
Abel S, T Nürnberger, V Ahnert, GJ Krauss, Glund K (2000) Induction
of an extracellular cyclic nucleotide phosphodiesterase as an accessory
ribonucleolytic activity during phosphate starvation of cultured tomato
cells.
Plant
Physiol 122:543-532
Löffler A, S Abel, W Jost, Glund K (1992) Phosphate-regulated induction
of intracellular ribonucleases in cultured tomato (L. esculentum)
cells.
Plant
Physiol 98:1472-1478
Nürnberger T, S Abel, W Jost, Glund K (1990) Induction of an extracellular
ribonuclease in cultured tomato cells upon phosphate starvation.
Plant
Physiol 92:970-976
Abel S, B Blume, Glund K (1990) Evidence for RNA-oligonucleotides in plant
vacuoles isolated from cultured tomato cells.
Plant
Physiol 94:1163-1171
Abel S, GJ Krauss, Glund K (1989) Ribonuclease in tomato vacuoles: HPLC
analysis of ribonucleolytic activities and base specificity.
Biochim
Biophys Acta 998:145-150
Glund K, Abel S (1989) Structural dynamics of the vacuolar system in cultured
tomato cells. A direct isolation study.
J Plant Physiol 135:242-244
Abel S, GJ Krauss, Glund K (1988) Single-step HPLC analysis of nucleoside
monophosphates for ribonuclease specificity.
J
Chromat 446:187-189
Abel S, Glund K (1987) Ribonuclease in plant vacuoles: purification and
molecular properties of the enzyme from cultured tomato cells.
Planta
172:71-78
Abel S, Glund K (1986) Localization of RNA-degrading enzyme activity within
vacuoles of cultured tomato cells.
Physiol.
Plant 66:79-86
Glund K, A Tewes, S Abel, V Leinhos, R Walther, Reinbothe H (1984) Vacuoles
from cell suspension cultures of tomato (Lycopersicon esculentum)
- Isolation and characterization.
J Plant Physiol 113:151-161