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Richard Needleman

This is a preview profile on BiomedExperts - the first literature-based scientific social network. It brings the right researchers together and allows them to collaborate online. Collexis and Dell provide the BiomedExperts network of +1.5 Million pre-calculated profiles free of charge to researchers worldwide.

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Photochemistry

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Amino Acid Sequence

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Co-Publications
Name
70
Lanyi, Janos
29
Brown, Leonid
21
Maeda, A
16
Kandori, Hideki
12
Tuzi, Satoru
11
Saitô, Hazime
10
Sasaki, Jun
10
Naito, Akira
9
Yamaguchi, Satoru
9
Yamazaki, Y
8
Tanio, Michikazu
8
Michels, Corinne
6
Richter, HT
6
Dioumaev, Andrei
6
Zimányi, László

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Publications

TOP 3
Liu Ming; Brusilow William S A; Needleman Richard
Activity of the yeast Tat2p tryptophan permease is sensitive to the anti-tumor agent 4-phenylbutyrate.
Maeda Akio; Herzfeld Judith; Belenky Marina; Needleman Richard; Gennis Robert B; Balashov Sergei P; Ebrey Thomas G
Water-mediated hydrogen-bonded network on the cytoplasmic side of the Schiff base of the L photointermediate of bacteriorhodopsin.
Grzanowski Andrew; Needleman Richard; Brusilow William S A
Immunosuppressant-like effects of phenylbutyrate on growth inhibition of Saccharomyces cerevisiae.

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All Publications

2004: Liu Ming; Brusilow William S A; Needleman Richard
Activity of the yeast Tat2p tryptophan permease is sensitive to the anti-tumor agent 4-phenylbutyrate.
Current genetics 2004;46(5):256-68.
2003: Maeda Akio; Herzfeld Judith; Belenky Marina; Needleman Richard; Gennis Robert B; Balashov Sergei P; Ebrey Thomas G
Water-mediated hydrogen-bonded network on the cytoplasmic side of the Schiff base of the L photointermediate of bacteriorhodopsin.
Biochemistry 2003;42(48):14122-9.
2002: Grzanowski Andrew; Needleman Richard; Brusilow William S A
Immunosuppressant-like effects of phenylbutyrate on growth inhibition of Saccharomyces cerevisiae.
Current genetics 2002;41(3):142-9.
2002: Hashimoto Shinji; Sasaki Masato; Takeuchi Hideo; Needleman Richard; Lanyi Janos K
Changes in hydrogen bonding and environment of tryptophan residues on helix F of bacteriorhodopsin during the photocycle: a time-resolved ultraviolet resonance Raman study.
Biochemistry 2002;41(20):6495-503.
2002: Brown Leonid S; Needleman Richard; Lanyi Janos K
Conformational change of the E-F interhelical loop in the M photointermediate of bacteriorhodopsin.
Journal of molecular biology 2002;317(3):471-8.
2001: Rouhani S; Cartailler J P; Facciotti M T; Walian P; Needleman R; Lanyi J K; Glaeser R M; Luecke H
Crystal structure of the D85S mutant of bacteriorhodopsin: model of an O-like photocycle intermediate.
Journal of molecular biology 2001;313(3):615-28.
2001: Dioumaev A K; Brown L S; Needleman R; Lanyi J K
Coupling of the reisomerization of the retinal, proton uptake, and reprotonation of Asp-96 in the N photointermediate of bacteriorhodopsin.
Biochemistry 2001;40(38):11308-17.
2001: Yamaguchi S; Yonebayashi K; Konishi H; Tuzi S; Naito A; Lanyi J K; Needleman R; Saitô H
Cytoplasmic surface structure of bacteriorhodopsin consisting of interhelical loops and C-terminal alpha helix, modified by a variety of environmental factors as studied by (13)C-NMR.
European journal of biochemistry / FEBS 2001;268(8):2218-28.
2001: Yamaguchi S; Tuzi S; Yonebayashi K; Naito A; Needleman R; Lanyi J K; Saitô H
Surface dynamics of bacteriorhodopsin as revealed by (13)C NMR studies on [(13)C]Ala-labeled proteins: detection of millisecond or microsecond motions in interhelical loops and C-terminal alpha-helix.
Journal of biochemistry 2001;129(3):373-82.
2000: Xiao W; Brown L S; Needleman R; Lanyi J K; Shin Y K
Light-induced rotation of a transmembrane alpha-helix in bacteriorhodopsin.
Journal of molecular biology 2000;304(5):715-21.
2000: Kawase Y; Tanio M; Kira A; Yamaguchi S; Tuzi S; Naito A; Kataoka M; Lanyi J K; Needleman R; Saitô H
Alteration of conformation and dynamics of bacteriorhodopsin induced by protonation of Asp 85 and deprotonation of Schiff base as studied by 13C NMR.
Biochemistry 2000;39(47):14472-80.
2000: Luecke H; Schobert B; Cartailler J P; Richter H T; Rosengarth A; Needleman R; Lanyi J K
Coupling photoisomerization of retinal to directional transport in bacteriorhodopsin.
Journal of molecular biology 2000;300(5):1237-55.
2000: Yamaguchi S; Tuzi S; Tanio M; Naito A; Lanyi J K; Needleman R; Saitô H
Irreversible conformational change of bacterio-opsin induced by binding of retinal during its reconstitution to bacteriorhodopsin, as studied by (13)C NMR.
Journal of biochemistry 2000;127(5):861-9.
2000: Kandori H; Kinoshita N; Yamazaki Y; Maeda A; Shichida Y; Needleman R; Lanyi J K; Bizounok M; Herzfeld J; Raap J; Lugtenburg J
Local and distant protein structural changes on photoisomerization of the retinal in bacteriorhodopsin.
Proceedings of the National Academy of Sciences of the United States of America 2000;97(9):4643-8.
2000: Brown L S; Needleman R; Lanyi J K
Origins of deuterium kinetic isotope effects on the proton transfers of the bacteriorhodopsin photocycle.
Biochemistry 2000;39(5):938-45.
1999: Millerd J E; Rohrbacher A; Brock N J; Chau C K; Smith P; Needleman R
Improved sensitivity in blue-membrane bacteriorhodopsin films.
Optics letters 1999;24(19):1355-7.
1999: Tanio M; Tuzi S; Yamaguchi S; Kawaminami R; Naito A; Needleman R; Lanyi J K; Saitô H
Conformational changes of bacteriorhodopsin along the proton-conduction chain as studied with (13)C NMR of [3-(13)C]Ala-labeled protein: arg(82) may function as an information mediator.
Biophysical journal 1999;77(3):1577-84.
1999: Dioumaev A K; Brown L S; Needleman R; Lanyi J K
Fourier transform infrared spectra of a late intermediate of the bacteriorhodopsin photocycle suggest transient protonation of Asp-212.
Biochemistry 1999;38(31):10070-8.
1999: Kandori H; Kinoshita N; Yamazaki Y; Maeda A; Shichida Y; Needleman R; Lanyi J K; Bizounok M; Herzfeld J; Raap J; Lugtenburg J
Structural change of threonine 89 upon photoisomerization in bacteriorhodopsin as revealed by polarized FTIR spectroscopy.
Biochemistry 1999;38(30):9676-83.
1999: Chon Y S; Kandori H; Sasaki J; Lanyi J K; Needleman R; Maeda A
Existence of two L photointermediates of halorhodopsin from Halobacterium salinarium, differing in their protein and water FTIR bands.
Biochemistry 1999;38(29):9449-55.
1999: Tanio M; Inoue S; Yokota K; Seki T; Tuzi S; Needleman R; Lanyi J K; Naito A; Saitô H
Long-distance effects of site-directed mutations on backbone conformation in bacteriorhodopsin from solid state NMR of [1-13C]Val-labeled proteins.
Biophysical journal 1999;77(1):431-42.
1999: Váró G; Brown L S; Needleman R; Lanyi J K
Binding of calcium ions to bacteriorhodopsin.
Biophysical journal 1999;76(6):3219-26.
1999: Brown L S; Needleman R; Lanyi J K
Functional roles of aspartic acid residues at the cytoplasmic surface of bacteriorhodopsin.
Biochemistry 1999;38(21):6855-61.
1999: Tuzi S; Yamaguchi S; Tanio M; Konishi H; Inoue S; Naito A; Needleman R; Lanyi J K; Saitô H
Location of a cation-binding site in the loop between helices F and G of bacteriorhodopsin as studied by 13C NMR.
Biophysical journal 1999;76(3):1523-31.
1999: Oka T; Kamikubo H; Tokunaga F; Lanyi J K; Needleman R; Kataoka M
Conformational change of helix G in the bacteriorhodopsin photocycle: investigation with heavy atom labeling and x-ray diffraction.
Biophysical journal 1999;76(2):1018-23.
1998: Tanio M; Tuzi S; Yamaguchi S; Konishi H; Naito A; Needleman R; Lanyi J K; Saitô H
Evidence of local conformational fluctuations and changes in bacteriorhodopsin, dependent on lipids, detergents and trimeric structure, as studied by 13C NMR.
Biochimica et biophysica acta 1998;1375(1-2):84-92.
1998: Brown L S; Dioumaev A K; Needleman R; Lanyi J K
Connectivity of the retinal Schiff base to Asp85 and Asp96 during the bacteriorhodopsin photocycle: the local-access model.
Biophysical journal 1998;75(3):1455-65.
1998: Dioumaev A K; Brown L S; Needleman R; Lanyi J K
Partitioning of free energy gain between the photoisomerized retinal and the protein in bacteriorhodopsin.
Biochemistry 1998;37(28):9889-93.
1998: Brown L S; Dioumaev A K; Needleman R; Lanyi J K
Local-access model for proton transfer in bacteriorhodopsin.
Biochemistry 1998;37(11):3982-93.
1998: Dioumaev A K; Richter H T; Brown L S; Tanio M; Tuzi S; Saito H; Kimura Y; Needleman R; Lanyi J K
Existence of a proton transfer chain in bacteriorhodopsin: participation of Glu-194 in the release of protons to the extracellular surface.
Biochemistry 1998;37(8):2496-506.
1998: Yamazaki Y; Kandori H; Needleman R; Lanyi J K; Maeda A
Interaction of the protonated Schiff base with the peptide backbone of valine 49 and the intervening water molecule in the N photointermediate of bacteriorhodopsin.
Biochemistry 1998;37(6):1559-64.
1998: Yamaguchi S; Tuzi S; Seki T; Tanio M; Needleman R; Lanyi J K; Naito A; Saitô H
Stability of the C-terminal alpha-helical domain of bacteriorhodopsin that protrudes from the membrane surface, as studied by high-resolution solid-state 13C NMR.
Journal of biochemistry 1998;123(1):78-86.
1997: Oka T; Kamikubo H; Tokunaga F; Lanyi J K; Needleman R; Kataoka M
X-ray diffraction studies of bacteriorhodopsin. Determination of the positions of mercury label at several engineered cysteine residues.
Photochemistry and photobiology 1997;66(6):768-73.
1997: Thorgeirsson T E; Xiao W; Brown L S; Needleman R; Lanyi J K; Shin Y K
Transient channel-opening in bacteriorhodopsin: an EPR study.
Journal of molecular biology 1997;273(5):951-7.
1997: Hashimoto S; Obata K; Takeuchi H; Needleman R; Lanyi J K
Ultraviolet resonance Raman spectra of Trp-182 and Trp-189 in bacteriorhodopsin: novel information on the structure of Trp-182 and its steric interaction with retinal.
Biochemistry 1997;36(39):11583-90.
1997: Hatanaka M; Kashima R; Kandori H; Friedman N; Sheves M; Needleman R; Lanyi J K; Maeda A
Trp86 --> Phe replacement in bacteriorhodopsin affects a water molecule near Asp85 and light adaptation.
Biochemistry 1997;36(18):5493-8.
1997: Kandori H; Yamazaki Y; Hatanaka M; Needleman R; Brown L S; Richter H T; Lanyi J K; Maeda A
Time-resolved fourier transform infrared study of structural changes in the last steps of the photocycles of Glu-204 and Leu-93 mutants of bacteriorhodopsin.
Biochemistry 1997;36(17):5134-41.
1997: Maeda A; Kandori H; Yamazaki Y; Nishimura S; Hatanaka M; Chon Y S; Sasaki J; Needleman R; Lanyi J K
Intramembrane signaling mediated by hydrogen-bonding of water and carboxyl groups in bacteriorhodopsin and rhodopsin.
Journal of biochemistry 1997;121(3):399-406.
1997: Wang J; Sirenko O; Needleman R
Genomic footprinting of Mig1p in the MAL62 promoter. Binding is dependent upon carbon source and competitive with the Mal63p activator.
The Journal of biological chemistry 1997;272(7):4613-22.
1996: Brown L S; Needleman R; Lanyi J K
Interaction of proton and chloride transfer pathways in recombinant bacteriorhodopsin with chloride transport activity: implications for the chloride translocation mechanism.
Biochemistry 1996;35(50):16048-54.
1996: Richter H T; Needleman R; Lanyi J K
Perturbed interaction between residues 85 and 204 in Tyr-185-->Phe and Asp-85-->Glu bacteriorhodopsins.
Biophysical journal 1996;71(6):3392-8.
1996: Richter H T; Needleman R; Kandori H; Maeda A; Lanyi J K
Relationship of retinal configuration and internal proton transfer at the end of the bacteriorhodopsin photocycle.
Biochemistry 1996;35(48):15461-6.
1996: Chon Y S; Sasaki J; Kandori H; Brown L S; Lanyi J K; Needleman R; Maeda A
Hydration of the counterion of the Schiff base in the chloride-transporting mutant of bacteriorhodopsin: FTIR and FT-raman studies of the effects of anion binding when Asp85 is replaced with a neutral residue.
Biochemistry 1996;35(45):14244-50.
1996: Tuzi S; Yamaguchi S; Naito A; Needleman R; Lanyi J K; Saitô H
Conformation and dynamics of [3-13C]Ala- labeled bacteriorhodopsin and bacterioopsin, induced by interaction with retinal and its analogs, as studied by 13C nuclear magnetic resonance.
Biochemistry 1996;35(23):7520-7.
1996: Hsu K C; Rayfield G W; Needleman R
Reversal of the surface charge asymmetry in purple membrane due to single amino acid substitutions.
Biophysical journal 1996;70(5):2358-65.
1996: Váró G; Brown L S; Needleman R; Lanyi J K
Proton transport by halorhodopsin.
Biochemistry 1996;35(21):6604-11.
1996: Hatanaka M; Sasaki J; Kandori H; Ebrey T G; Needleman R; Lanyi J K; Maeda A
Effects of arginine-82 on the interactions of internal water molecules in bacteriorhodopsin.
Biochemistry 1996;35(20):6308-12.
1996: Yamazaki Y; Tuzi S; Saitô H; Kandori H; Needleman R; Lanyi J K; Maeda A
Hydrogen bonds of water and C==O groups coordinate long-range structural changes in the L photointermediate of bacteriorhodopsin.
Biochemistry 1996;35(13):4063-8.
1996: Richter H T; Brown L S; Needleman R; Lanyi J K
A linkage of the pKa's of asp-85 and glu-204 forms part of the reprotonation switch of bacteriorhodopsin.
Biochemistry 1996;35(13):4054-62.
1996: Kamikubo H; Kataoka M; Váró G; Oka T; Tokunaga F; Needleman R; Lanyi J K
Structure of the N intermediate of bacteriorhodopsin revealed by x-ray diffraction.
Proceedings of the National Academy of Sciences of the United States of America 1996;93(4):1386-90.
1996: Wang J; Needleman R
Removal of Mig1p binding site converts a MAL63 constitutive mutant derived by interchromosomal gene conversion to glucose insensitivity.
Genetics 1996;142(1):51-63.
1996: Váró G; Needleman R; Lanyi J K
Protein structural change at the cytoplasmic surface as the cause of cooperativity in the bacteriorhodopsin photocycle.
Biophysical journal 1996;70(1):461-7.
1995: Brown L S; Váró G; Needleman R; Lanyi J K
Functional significance of a protein conformation change at the cytoplasmic end of helix F during the bacteriorhodopsin photocycle.
Biophysical journal 1995;69(5):2103-11.
1995: Brown L S; Sasaki J; Kandori H; Maeda A; Needleman R; Lanyi J K
Glutamic acid 204 is the terminal proton release group at the extracellular surface of bacteriorhodopsin.
The Journal of biological chemistry 1995;270(45):27122-6.
1995: Váró G; Needleman R; Lanyi J K
Light-driven chloride ion transport by halorhodopsin from Natronobacterium pharaonis. 2. Chloride release and uptake, protein conformation change, and thermodynamics.
Biochemistry 1995;34(44):14500-7.
1995: Váró G; Brown L S; Sasaki J; Kandori H; Maeda A; Needleman R; Lanyi J K
Light-driven chloride ion transport by halorhodopsin from Natronobacterium pharaonis. 1. The photochemical cycle.
Biochemistry 1995;34(44):14490-9.
1995: Sasaki J; Brown L S; Chon Y S; Kandori H; Maeda A; Needleman R; Lanyi J K
Conversion of bacteriorhodopsin into a chloride ion pump.
Science (New York, N.Y.) 1995;269(5220):73-5.
1995: Yamazaki Y; Hatanaka M; Kandori H; Sasaki J; Karstens W F; Raap J; Lugtenburg J; Bizounok M; Herzfeld J; Needleman R
Water structural changes at the proton uptake site (the Thr46-Asp96 domain) in the L intermediate of bacteriorhodopsin.
Biochemistry 1995;34(21):7088-93.
1995: Váró G; Zimányi L; Fan X; Sun L; Needleman R; Lanyi J K
Photocycle of halorhodopsin from Halobacterium salinarium.
Biophysical journal 1995;68(5):2062-72.
1995: Sirenko O I; Ni B; Needleman R B
Purification and binding properties of the Mal63p activator of Saccharomyces cerevisiae.
Current genetics 1995;27(6):509-16.
1995: Cao Y; Brown L S; Sasaki J; Maeda A; Needleman R; Lanyi J K
Relationship of proton release at the extracellular surface to deprotonation of the schiff base in the bacteriorhodopsin photocycle.
Biophysical journal 1995;68(4):1518-30.
1995: Yamazaki Y; Sasaki J; Hatanaka M; Kandori H; Maeda A; Needleman R; Shinada T; Yoshihara K; Brown L S; Lanyi J K
Interaction of tryptophan-182 with the retinal 9-methyl group in the L intermediate of bacteriorhodopsin.
Biochemistry 1995;34(2):577-82.
1994: Kataoka M; Kamikubo H; Tokunaga F; Brown L S; Yamazaki Y; Maeda A; Sheves M; Needleman R; Lanyi J K
Energy coupling in an ion pump. The reprotonation switch of bacteriorhodopsin.
Journal of molecular biology 1994;243(4):621-38.
1994: Brown L S; Gat Y; Sheves M; Yamazaki Y; Maeda A; Needleman R; Lanyi J K
The retinal Schiff base-counterion complex of bacteriorhodopsin: changed geometry during the photocycle is a cause of proton transfer to aspartate 85.
Biochemistry 1994;33(40):12001-11.
1994: Brown L S; Yamazaki Y; Maeda A; Sun L; Needleman R; Lanyi J K
The proton transfers in the cytoplasmic domain of bacteriorhodopsin are facilitated by a cluster of interacting residues.
Journal of molecular biology 1994;239(3):401-14.
1994: Sasaki J; Lanyi J K; Needleman R; Yoshizawa T; Maeda A
Complete identification of C = O stretching vibrational bands of protonated aspartic acid residues in the difference infrared spectra of M and N intermediates versus bacteriorhodopsin.
Biochemistry 1994;33(11):3178-84.
1994: Friedman N; Druckmann S; Lanyi J; Needleman R; Lewis A; Ottolenghi M; Sheves M
A covalent link between the chromophore and the protein backbone of bacteriorhodopsin is not required for forming a photochemically active pigment analogous to the wild type.
Biochemistry 1994;33(8):1971-6.
1994: Maeda A; Sasaki J; Yamazaki Y; Needleman R; Lanyi J K
Interaction of aspartate-85 with a water molecule and the protonated Schiff base in the L intermediate of bacteriorhodopsin: a Fourier-transform infrared spectroscopic study.
Biochemistry 1994;33(7):1713-7.
1993: Kataoka M; Mihara K; Kamikubo H; Needleman R; Lanyi J K; Tokunaga F
Trimeric mutant bacteriorhodopsin, D85N, shows a monophasic CD spectrum.
FEBS letters 1993;333(1-2):111-3.
1993: Cao Y; Brown L S; Needleman R; Lanyi J K
Relationship of proton uptake on the cytoplasmic surface and reisomerization of the retinal in the bacteriorhodopsin photocycle: an attempt to understand the complex kinetics of the pH changes and the N and O intermediates.
Biochemistry 1993;32(38):10239-48.
1993: Brown L S; Zimányi L; Needleman R; Ottolenghi M; Lanyi J K
Photoreaction of the N intermediate of bacteriorhodopsin, and its relationship to the decay kinetics of the M intermediate.
Biochemistry 1993;32(30):7679-85.
1993: Zimányi L; Cao Y; Needleman R; Ottolenghi M; Lanyi J K
Pathway of proton uptake in the bacteriorhodopsin photocycle.
Biochemistry 1993;32(30):7669-78.
1993: Brown L S; Bonet L; Needleman R; Lanyi J K
Estimated acid dissociation constants of the Schiff base, Asp-85, and Arg-82 during the bacteriorhodopsin photocycle.
Biophysical journal 1993;65(1):124-30.
1993: Cao Y; Váró G; Klinger A L; Czajkowsky D M; Braiman M S; Needleman R; Lanyi J K
Proton transfer from Asp-96 to the bacteriorhodopsin Schiff base is caused by a decrease of the pKa of Asp-96 which follows a protein backbone conformational change.
Biochemistry 1993;32(8):1981-90.
1993: Zhang Y N; el-Sayed M A; Bonet M L; Lanyi J K; Chang M; Ni B; Needleman R
Effects of genetic replacements of charged and H-bonding residues in the retinal pocket on Ca2+ binding to deionized bacteriorhodopsin.
Proceedings of the National Academy of Sciences of the United States of America 1993;90(4):1445-9.
1992: Zimányi L; Cao Y; Chang M; Ni B; Needleman R; Lanyi J K
The two consecutive M substates in the photocycle of bacteriorhodopsin are affected specifically by the D85N and D96N residue replacements.
Photochemistry and photobiology 1992;56(6):1049-55.
1992: Zimányi L; Váró G; Chang M; Ni B; Needleman R; Lanyi J K
Pathways of proton release in the bacteriorhodopsin photocycle.
Biochemistry 1992;31(36):8535-43.
1992: Maeda A; Sasaki J; Shichida Y; Yoshizawa T; Chang M; Ni B; Needleman R; Lanyi J K
Structures of aspartic acid-96 in the L and N intermediates of bacteriorhodopsin: analysis by Fourier transform infrared spectroscopy.
Biochemistry 1992;31(19):4684-90.
1992: Váró G; Zimányi L; Chang M; Ni B; Needleman R; Lanyi J K
A residue substitution near the beta-ionone ring of the retinal affects the M substates of bacteriorhodopsin.
Biophysical journal 1992;61(3):820-6.
1992: Druckmann S; Friedman N; Lanyi J K; Needleman R; Ottolenghi M; Sheves M
The back photoreaction of the M intermediate in the photocycle of bacteriorhodopsin: mechanism and evidence for two M species.
Photochemistry and photobiology 1992;56(6):1041-7.
1991: Cao Y; Váró G; Chang M; Ni B F; Needleman R; Lanyi J K
Water is required for proton transfer from aspartate-96 to the bacteriorhodopsin Schiff base.
Biochemistry 1991;30(45):10972-9.
1991: Needleman R
Control of maltase synthesis in yeast.
Molecular microbiology 1991;5(9):2079-84.
1991: Needleman R; Chang M; Ni B; Váró G; Fornés J; White S H; Lanyi J K
Properties of Asp212----Asn bacteriorhodopsin suggest that Asp212 and Asp85 both participate in a counterion and proton acceptor complex near the Schiff base.
The Journal of biological chemistry 1991;266(18):11478-84.
1990: Ni B F; Needleman R B
Identification of the upstream activating sequence of MAL and the binding sites for the MAL63 activator of Saccharomyces cerevisiae.
Molecular and cellular biology 1990;10(7):3797-800.
1990: Ni B F; Chang M; Duschl A; Lanyi J; Needleman R
An efficient system for the synthesis of bacteriorhodopsin in Halobacterium halobium.
Gene 1990;90(1):169-72.
1989: Chang Y S; Dubin R A; Perkins E; Michels C A; Needleman R B
Identification and characterization of the maltose permease in genetically defined Saccharomyces strain.
Journal of bacteriology 1989;171(11):6148-54.
1988: Chang Y S; Dubin R A; Perkins E; Forrest D; Michels C A; Needleman R B
MAL63 codes for a positive regulator of maltose fermentation in Saccharomyces cerevisiae.
Current genetics 1988;14(3):201-9.
1988: Perkins E L; Needleman R B
MAL64c is a global regulator of alpha-glucoside fermentation: identification of a new gene involved in melezitose fermentation.
Current genetics 1988;13(5):369-75.
1988: Dubin R A; Charron M J; Haut S R; Needleman R B; Michels C A
Constitutive expression of the maltose fermentative enzymes in Saccharomyces carlsbergensis is dependent upon the mutational activation of a nonessential homolog of MAL63.
Molecular and cellular biology 1988;8(3):1027-35.
1986: Dubin R A; Perkins E L; Needleman R B; Michels C A
Identification of a second trans-acting gene controlling maltose fermentation in Saccharomyces carlsbergensis.
Molecular and cellular biology 1986;6(8):2757-65.
1985: Dubin R A; Needleman R B; Gossett D; Michels C A
Identification of the structural gene encoding maltase within the MAL6 locus of Saccharomyces carlsbergensis.
Journal of bacteriology 1985;164(2):605-10.
1984: Needleman R B; Kaback D B; Dubin R A; Perkins E L; Rosenberg N G; Sutherland K A; Forrest D B; Michels C A
MAL6 of Saccharomyces: a complex genetic locus containing three genes required for maltose fermentation.
Proceedings of the National Academy of Sciences of the United States of America 1984;81(9):2811-5.
1984: Michels C A; Needleman R B
The dispersed, repeated family of MAL loci in Saccharomyces spp.
Journal of bacteriology 1984;157(3):949-52.
1983: Needleman R B; Michels C
Repeated family of genes controlling maltose fermentation in Saccharomyces carlsbergensis.
Molecular and cellular biology 1983;3(5):796-802.
1974: Needleman R; Eaton N R
Selection of yeast mutants constitutive for maltase synthesis.
Molecular & general genetics : MGG 1974;133(2):135-40.

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