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Pamela Stanley

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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Living Beings

Physiology

Anatomy

Chemicals & Drugs

Phenomena

Glycosylation

Concepts & Ideas

Molecular Sequence Data

Genes & Molecular Sequences

Procedures

Genetic Complementation Test

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Co-Publications
Name
9
Shi, Shaolin
9
Raju, Shantha
8
Bhaumik, Mantu
6
Williams, Suzannah
6
Potvin, Barry
5
Patnaik, Santosh
5
Ge, Changhui
5
Chen, Wei
4
Bhattacharyya, Riddhi
4
Lu, Linchao
4
Sundaram, Subha
3
Rogler, Charles
3
Wolkoff, Allan
3
Stockert, Richard
3
Lee, JaeHoon

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Publications

TOP 3
Aguilan Jennifer T; Sundaram Subha; Nieves Edward; Stanley Pamela
Mutational and functional analysis of Large in a novel CHO glycosylation mutant.
Stanley Pamela; Guidos Cynthia J
Regulation of Notch signaling during T- and B-cell development by O-fucose glycans.
Williams Suzannah A; Stanley Pamela
Complex N-glycans or core 1-derived O-glycans are not required for the expression of stage-specific antigens SSEA-1, SSEA-3, SSEA-4, or Le(Y) in the preimplantation mouse embryo.

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All Publications

2009: Aguilan Jennifer T; Sundaram Subha; Nieves Edward; Stanley Pamela
Mutational and functional analysis of Large in a novel CHO glycosylation mutant.
Glycobiology 2009;19(9):971-86.
2009: Stanley Pamela; Guidos Cynthia J
Regulation of Notch signaling during T- and B-cell development by O-fucose glycans.
Immunological reviews 2009;230(1):201-15.
2009: Williams Suzannah A; Stanley Pamela
Complex N-glycans or core 1-derived O-glycans are not required for the expression of stage-specific antigens SSEA-1, SSEA-3, SSEA-4, or Le(Y) in the preimplantation mouse embryo.
Glycoconjugate journal 2009;26(3):335-47.
2009: Williams Suzannah A; Stanley Pamela
Oocyte-specific deletion of complex and hybrid N-glycans leads to defects in preovulatory follicle and cumulus mass development.
Reproduction (Cambridge, England) 2009;137(2):321-31.
2008: Kim Mi-Lyang; Chandrasekharan Kumaran; Glass Matthew; Shi Shaolin; Stahl Mark C; Kaspar Brian; Stanley Pamela; Martin Paul T
O-fucosylation of muscle agrin determines its ability to cluster acetylcholine receptors.
Molecular and cellular neurosciences 2008;39(3):452-64.
2008: Guilmeau Sandra; Flandez Marta; Bancroft Laura; Sellers Rani S; Tear Benjamin; Stanley Pamela; Augenlicht Leonard H
Intestinal deletion of Pofut1 in the mouse inactivates notch signaling and causes enterocolitis.
Gastroenterology 2008;135(3):849-60, 860.e1-6.
2008: Tamgüney Gültekin; Giles Kurt; Glidden David V; Lessard Pierre; Wille Holger; Tremblay Patrick; Groth Darlene F; Yehiely Fruma; Korth Carsten; Moore Richard C; Tatzelt Jörg; Rubinstein Eric; Boucheix Claude; Yang Xiaoping; Stanley Pamela; Lisanti Michael P; Dwek Raymond A; Rudd Pauline M; Moskovitz Jackob; Epstein Charles J; Cruz Tracey Dawson; Kuziel William A; Maeda Nobuyo; Sap Jan; Ashe Karen Hsiao; Carlson George A; Tesseur Ina; Wyss-Coray Tony; Mucke Lennart; Weisgraber Karl H; Mahley Robert W; Cohen Fred E; Prusiner Stanley B
Genes contributing to prion pathogenesis.
The Journal of general virology 2008;89(Pt 7):1777-88.
2008: Williams Suzannah A; Stanley Pamela
Mouse fertility is enhanced by oocyte-specific loss of core 1-derived O-glycans.
The FASEB journal : official publication of the Federation of American Societies for Experimental Biology 2008;22(7):2273-84.
2008: Stahl Mark; Uemura Kazuhide; Ge Changhui; Shi Shaolin; Tashima Yuko; Stanley Pamela
Roles of Pofut1 and O-fucose in mammalian Notch signaling.
The Journal of biological chemistry 2008;283(20):13638-51.
2008: Stanley Pamela
Glucose: a novel regulator of notch signaling.
ACS chemical biology 2008;3(4):210-3.
2008: Ge Changhui; Stanley Pamela
The O-fucose glycan in the ligand-binding domain of Notch1 regulates embryogenesis and T cell development.
Proceedings of the National Academy of Sciences of the United States of America 2008;105(5):1539-44.
2008: Ge Changhui; Liu Tongyi; Hou Xinghua; Stanley Pamela
In vivo consequences of deleting EGF repeats 8-12 including the ligand binding domain of mouse Notch1.
BMC developmental biology 2008;8():48.
2007: Stanley Pamela
Regulation of Notch signaling by glycosylation.
Current opinion in structural biology 2007;17(5):530-5.
2007: Stockert Richard J; Potvin Barry; Nath Sangeeta; Wolkoff Allan W; Stanley Pamela
New liver cell mutants defective in the endocytic pathway.
Biochimica et biophysica acta 2007;1768(7):1741-9.
2007: Shi Shaolin; Ge Changhui; Luo Yi; Hou Xinghua; Haltiwanger Robert S; Stanley Pamela
The threonine that carries fucose, but not fucose, is required for Cripto to facilitate Nodal signaling.
The Journal of biological chemistry 2007;282(28):20133-41.
2007: Stanley Pamela
A method to the madness of N-glycan complexity?
Cell 2007;129(1):27-9.
2007: Williams Suzannah A; Xia Lijun; Cummings Richard D; McEver Rodger P; Stanley Pamela
Fertilization in mouse does not require terminal galactose or N-acetylglucosamine on the zona pellucida glycans.
Journal of cell science 2007;120(Pt 8):1341-9.
2006: Stahl Mark; Ge Changhui; Shi Shaolin; Pestell Richard G; Stanley Pamela
Notch1-induced transformation of RKE-1 cells requires up-regulation of cyclin D1.
Cancer research 2006;66(15):7562-70.
2006: Buono Krista D; Robinson Gertraud W; Martin Cyril; Shi Shaolin; Stanley Pamela; Tanigaki Kenji; Honjo Tasuku; Hennighausen Lothar
The canonical Notch/RBP-J signaling pathway controls the balance of cell lineages in mammary epithelium during pregnancy.
Developmental biology 2006;293(2):565-80.
2006: Chen Jihua; Lu Linchao; Shi Shaolin; Stanley Pamela
Expression of Notch signaling pathway genes in mouse embryos lacking beta4galactosyltransferase-1.
Gene expression patterns : GEP 2006;6(4):376-82.
2006: Patnaik Santosh Kumar; Potvin Barry; Carlsson Susanne; Sturm David; Leffler Hakon; Stanley Pamela
Complex N-glycans are the major ligands for galectin-1, -3, and -8 on Chinese hamster ovary cells.
Glycobiology 2006;16(4):305-17.
2006: Lu Linchao; Stanley Pamela
Roles of O-fucose glycans in notch signaling revealed by mutant mice.
Methods in enzymology 2006;417():127-36.
2006: Patnaik Santosh Kumar; Stanley Pamela
Lectin-resistant CHO glycosylation mutants.
Methods in enzymology 2006;416():159-82.
2005: Shi Shaolin; Stahl Mark; Lu Linchao; Stanley Pamela
Canonical Notch signaling is dispensable for early cell fate specifications in mammals.
Molecular and cellular biology 2005;25(21):9503-8.
2005: Patnaik Santosh K; Stanley Pamela
Mouse large can modify complex N- and mucin O-glycans on alpha-dystroglycan to induce laminin binding.
The Journal of biological chemistry 2005;280(21):20851-9.
2005: Hoodbhoy Tanya; Joshi Saurabh; Boja Emily S; Williams Suzannah A; Stanley Pamela; Dean Jurrien
Human sperm do not bind to rat zonae pellucidae despite the presence of four homologous glycoproteins.
The Journal of biological chemistry 2005;280(13):12721-31.
2005: Chen Wei; Tang Jian; Stanley Pamela
Suppressors of alpha(1,3)fucosylation identified by expression cloning in the LEC11B gain-of-function CHO mutant.
Glycobiology 2005;15(3):259-69.
2005: Stanley Pamela; Sundaram Subha; Tang Jian; Shi Shaolin
Molecular analysis of three gain-of-function CHO mutants that add the bisecting GlcNAc to N-glycans.
Glycobiology 2005;15(1):43-53.
2005: Shi S; Williams S A; Kurniawan H; Lu L; Stanley P
Roles of complex and hybrid N-glycans and O-fucose glycans in oocyte development and function.
Advances in experimental medicine and biology 2005;564():99-100.
2004: Shi Shaolin; Williams Suzannah A; Seppo Antti; Kurniawan Henry; Chen Wei; Ye Zhengyi; Marth Jamey D; Stanley Pamela
Inactivation of the Mgat1 gene in oocytes impairs oogenesis, but embryos lacking complex and hybrid N-glycans develop and implant.
Molecular and cellular biology 2004;24(22):9920-9.
2004: Hong Yeongjin; Sundaram Subha; Shin Dong-Jun; Stanley Pamela
The Lec23 Chinese hamster ovary mutant is a sensitive host for detecting mutations in alpha-glucosidase I that give rise to congenital disorder of glycosylation IIb (CDG IIb).
The Journal of biological chemistry 2004;279(48):49894-901.
2004: Patnaik Santosh K; Potvin Barry; Stanley Pamela
LEC12 and LEC29 gain-of-function Chinese hamster ovary mutants reveal mechanisms for regulating VIM-2 antigen synthesis and E-selectin binding.
The Journal of biological chemistry 2004;279(48):49716-26.
2003: Hong Yeongjin; Stanley Pamela
Lec3 Chinese hamster ovary mutants lack UDP-N-acetylglucosamine 2-epimerase activity because of mutations in the epimerase domain of the Gne gene.
The Journal of biological chemistry 2003;278(52):53045-54.
2003: Yang Xiaoping; Tang Jian; Rogler Charles E; Stanley Pamela
Reduced hepatocyte proliferation is the basis of retarded liver tumor progression and liver regeneration in mice lacking N-acetylglucosaminyltransferase III.
Cancer research 2003;63(22):7753-9.
2003: Lee JaeHoon; Park Sung-Hae; Sundaram Subha; Raju T Shantha; Shaper Nancy L; Stanley Pamela
A mutation causing a reduced level of expression of six beta4-galactosyltransferase genes is the basis of the Lec19 CHO glycosylation mutant.
Biochemistry 2003;42(42):12349-57.
2003: Shi Shaolin; Stanley Pamela
Protein O-fucosyltransferase 1 is an essential component of Notch signaling pathways.
Proceedings of the National Academy of Sciences of the United States of America 2003;100(9):5234-9.
2003: Chen Wei; Stanley Pamela
Five Lec1 CHO cell mutants have distinct Mgat1 gene mutations that encode truncated N-acetylglucosaminyltransferase I.
Glycobiology 2003;13(1):43-50.
2002: Stanley Pamela
Biological consequences of overexpressing or eliminating N-acetylglucosaminyltransferase-TIII in the mouse.
Biochimica et biophysica acta 2002;1573(3):363-8.
2002: Haltiwanger Robert S; Stanley Pamela
Modulation of receptor signaling by glycosylation: fringe is an O-fucose-beta1,3-N-acetylglucosaminyltransferase.
Biochimica et biophysica acta 2002;1573(3):328-35.
2002: Nakamura Yoko; Haines Nicola; Chen Jihua; Okajima Tetsuya; Furukawa Keiko; Urano Takeshi; Stanley Pamela; Irvine Kenneth D; Furukawa Koichi
Identification of a Drosophila gene encoding xylosylprotein beta4-galactosyltransferase that is essential for the synthesis of glycosaminoglycans and for morphogenesis.
The Journal of biological chemistry 2002;277(48):46280-8.
2002: Bhattacharyya Riddhi; Bhaumik Mantu; Raju T Shantha; Stanley Pamela
Truncated, inactive N-acetylglucosaminyltransferase III (GlcNAc-TIII) induces neurological and other traits absent in mice that lack GlcNAc-TIII.
The Journal of biological chemistry 2002;277(29):26300-9.
2002: Lee JaeHoon; Park Sung-Hae; Stanley Pamela
Antibodies that recognize bisected complex N-glycans on cell surface glycoproteins can be made in mice lacking N-acetylglucosaminyltransferase III.
Glycoconjugate journal 2002;19(3):211-9.
2001: Chen J; Moloney D J; Stanley P
Fringe modulation of Jagged1-induced Notch signaling requires the action of beta 4galactosyltransferase-1.
Proceedings of the National Academy of Sciences of the United States of America 2001;98(24):13716-21.
2001: Wang Y; Shao L; Shi S; Harris R J; Spellman M W; Stanley P; Haltiwanger R S
Modification of epidermal growth factor-like repeats with O-fucose. Molecular cloning and expression of a novel GDP-fucose protein O-fucosyltransferase.
The Journal of biological chemistry 2001;276(43):40338-45.
2001: Chen W; Unligil U M; Rini J M; Stanley P
Independent Lec1A CHO glycosylation mutants arise from point mutations in N-acetylglucosaminyltransferase I that reduce affinity for both substrates. Molecular consequences based on the crystal structure of GlcNAc-TI.
Biochemistry 2001;40(30):8765-72.
2001: Oelmann S; Stanley P; Gerardy-Schahn R
Point mutations identified in Lec8 Chinese hamster ovary glycosylation mutants that inactivate both the UDP-galactose and CMP-sialic acid transporters.
The Journal of biological chemistry 2001;276(28):26291-300.
2001: Cao Z; Zhao Z; Mohan R; Alroy J; Stanley P; Panjwani N
Role of the Lewis(x) glycan determinant in corneal epithelial cell adhesion and differentiation.
The Journal of biological chemistry 2001;276(24):21714-23.
2001: Lee J; Sundaram S; Shaper N L; Raju T S; Stanley P
Chinese hamster ovary (CHO) cells may express six beta 4-galactosyltransferases (beta 4GalTs). Consequences of the loss of functional beta 4GalT-1, beta 4GalT-6, or both in CHO glycosylation mutants.
The Journal of biological chemistry 2001;276(17):13924-34.
2001: Bhattacharyya R; Gliddon B; Beccari T; Hopwood J J; Stanley P
A novel missense mutation in lysosomal sulfamidase is the basis of MPS III A in a spontaneous mouse mutant.
Glycobiology 2001;11(1):99-103.
2001: Shi X; Potvin B; Huang T; Hilgard P; Spray D C; Suadicani S O; Wolkoff A W; Stanley P; Stockert R J
A novel casein kinase 2 alpha-subunit regulates membrane protein traffic in the human hepatoma cell line HuH-7.
The Journal of biological chemistry 2001;276(3):2075-82.
2000: Moloney D J; Panin V M; Johnston S H; Chen J; Shao L; Wilson R; Wang Y; Stanley P; Irvine K D; Haltiwanger R S; Vogt T F
Fringe is a glycosyltransferase that modifies Notch.
Nature 2000;406(6794):369-75.
2000: Yang X; Bhaumik M; Bhattacharyya R; Gong S; Rogler C E; Stanley P
New evidence for an extra-hepatic role of N-acetylglucosaminyltransferase III in the progression of diethylnitrosamine-induced liver tumors in mice.
Cancer research 2000;60(12):3313-9.
2000: Patnaik S K; Zhang A; Shi S; Stanley P
alpha(1,3)fucosyltransferases expressed by the gain-of-function Chinese hamster ovary glycosylation mutants LEC12, LEC29, and LEC30.
Archives of biochemistry and biophysics 2000;375(2):322-32.
1999: Bhaumik M; Muller V J; Rozaklis T; Johnson L; Dobrenis K; Bhattacharyya R; Wurzelmann S; Finamore P; Hopwood J J; Walkley S U; Stanley P
A mouse model for mucopolysaccharidosis type III A (Sanfilippo syndrome).
Glycobiology 1999;9(12):1389-96.
1999: Zhang A; Potvin B; Zaiman A; Chen W; Kumar R; Phillips L; Stanley P
The gain-of-function Chinese hamster ovary mutant LEC11B expresses one of two Chinese hamster FUT6 genes due to the loss of a negative regulatory factor.
The Journal of biological chemistry 1999;274(15):10439-50.
1998: Münster A K; Eckhardt M; Potvin B; Mühlenhoff M; Stanley P; Gerardy-Schahn R
Mammalian cytidine 5'-monophosphate N-acetylneuraminic acid synthetase: a nuclear protein with evolutionarily conserved structural motifs.
Proceedings of the National Academy of Sciences of the United States of America 1998;95(16):9140-5.
1998: Bhaumik M; Harris T; Sundaram S; Johnson L; Guttenplan J; Rogler C; Stanley P
Progression of hepatic neoplasms is severely retarded in mice lacking the bisecting N-acetylglucosamine on N-glycans: evidence for a glycoprotein factor that facilitates hepatic tumor progression.
Cancer research 1998;58(13):2881-7.
1998: Raju T S; Stanley P
Gain-of-function Chinese hamster ovary mutants LEC18 and LEC14 each express a novel N-acetylglucosaminyltransferase activity.
The Journal of biological chemistry 1998;273(23):14090-8.
1998: Stanley P
In the land of chocolate, excitement about sugars!
Trends in cell biology 1998;8(3):128-30.
1997: Ioffe E; Liu Y; Stanley P
Complex N-glycans in Mgat1 null preimplantation embryos arise from maternal Mgat1 RNA.
Glycobiology 1997;7(7):913-9.
1996: Gupta D; Oscarson S; Raju T S; Stanley P; Toone E J; Brewer C F
A comparison of the fine saccharide-binding specificity of Dioclea grandiflora lectin and concanavalin A.
European journal of biochemistry / FEBS 1996;242(2):320-6.
1996: Weinstein J; Sundaram S; Wang X; Delgado D; Basu R; Stanley P
A point mutation causes mistargeting of Golgi GlcNAc-TV in the Lec4A Chinese hamster ovary glycosylation mutant.
The Journal of biological chemistry 1996;271(44):27462-9.
1996: Stanley P; Raju T S; Bhaumik M
CHO cells provide access to novel N-glycans and developmentally regulated glycosyltransferases.
Glycobiology 1996;6(7):695-9.
1996: Ioffe E; Liu Y; Stanley P
Essential role for complex N-glycans in forming an organized layer of bronchial epithelium.
Proceedings of the National Academy of Sciences of the United States of America 1996;93(20):11041-6.
1996: Raju T S; Stanley P
LEC14, a dominant Chinese hamster ovary glycosylation mutant expresses complex N-glycans with a new N-acetylglucosamine residue in the core region.
The Journal of biological chemistry 1996;271(13):7484-93.
1995: Potvin B; Raju T S; Stanley P
Lec32 is a new mutation in Chinese hamster ovary cells that essentially abrogates CMP-N-acetylneuraminic acid synthetase activity.
The Journal of biological chemistry 1995;270(51):30415-21.
1995: Raju T S; Ray M K; Stanley P
LEC18, a dominant Chinese hamster ovary glycosylation mutant synthesizes N-linked carbohydrates with a novel core structure.
The Journal of biological chemistry 1995;270(51):30294-302.
1995: Stanley P; Ioffe E
Glycosyltransferase mutants: key to new insights in glycobiology.
The FASEB journal : official publication of the Federation of American Societies for Experimental Biology 1995;9(14):1436-44.
1995: Bhaumik M; Seldin M F; Stanley P
Cloning and chromosomal mapping of the mouse Mgat3 gene encoding N-acetylglucosaminyltransferase III.
Gene 1995;164(2):295-300.
1995: Ioffe E; Liu Y; Bhaumik M; Poirier F; Factor S M; Stanley P
WW6: an embryonic stem cell line with an inert genetic marker that can be traced in chimeras.
Proceedings of the National Academy of Sciences of the United States of America 1995;92(16):7357-61.
1995: Stockert R J; Potvin B; Tao L; Stanley P; Wolkoff A W
Human hepatoma cell mutant defective in cell surface protein trafficking.
The Journal of biological chemistry 1995;270(27):16107-13.
1994: Yang J; Bhaumik M; Liu Y; Stanley P
Regulation of N-linked glycosylation. Neuronal cell-specific expression of a 5' extended transcript from the gene encoding N-acetylglucosaminyltransferase I.
Glycobiology 1994;4(5):703-12.
1994: Ioffe E; Stanley P
Mice lacking N-acetylglucosaminyltransferase I activity die at mid-gestation, revealing an essential role for complex or hybrid N-linked carbohydrates.
Proceedings of the National Academy of Sciences of the United States of America 1994;91(2):728-32.
1994: Goelz S; Kumar R; Potvin B; Sundaram S; Brickelmaier M; Stanley P
Differential expression of an E-selectin ligand (SLex) by two Chinese hamster ovary cell lines transfected with the same alpha (1,3)-fucosyltransferase gene (ELFT).
The Journal of biological chemistry 1994;269(2):1033-40.
1993: Rosenwald A G; Stanley P; McLachlan K R; Krag S S
Mutants in dolichol synthesis: conversion of polyprenol to dolichol appears to be a rate-limiting step in dolichol synthesis.
Glycobiology 1993;3(5):481-8.
1992: Kumar R; Yang J; Eddy R L; Byers M G; Shows T B; Stanley P
Cloning and expression of the murine gene and chromosomal location of the human gene encoding N-acetylglucosaminyltransferase I.
Glycobiology 1992;2(4):383-93.
1992: Stanley P
Glycosylation engineering.
Glycobiology 1992;2(2):99-107.
1991: Potvin B; Stanley P
Activation of two new alpha(1,3)fucosyltransferase activities in Chinese hamster ovary cells by 5-azacytidine.
Cell regulation 1991;2(12):989-1000.
1991: Ray M K; Yang J; Sundaram S; Stanley P
A novel glycosylation phenotype expressed by Lec23, a Chinese hamster ovary mutant deficient in alpha-glucosidase I.
The Journal of biological chemistry 1991;266(34):22818-25.
1991: Kumar R; Potvin B; Muller W A; Stanley P
Cloning of a human alpha(1,3)-fucosyltransferase gene that encodes ELFT but does not confer ELAM-1 recognition on Chinese hamster ovary cell transfectants.
The Journal of biological chemistry 1991;266(32):21777-83.
1991: Stanley P; Sundaram S; Sallustio S
A subclass of cell surface carbohydrates revealed by a CHO mutant with two glycosylation mutations.
Glycobiology 1991;1(3):307-14.
1990: Kumar R; Yang J; Larsen R D; Stanley P
Cloning and expression of N-acetylglucosaminyltransferase I, the medial Golgi transferase that initiates complex N-linked carbohydrate formation.
Proceedings of the National Academy of Sciences of the United States of America 1990;87(24):9948-52.
1990: Stanley P; Sallustio S; Krag S S; Dunn B
Lectin-resistant CHO cells: selection of seven new mutants resistant to ricin.
Somatic cell and molecular genetics 1990;16(3):211-23.
1990: Potvin B; Kumar R; Howard D R; Stanley P
Transfection of a human alpha-(1,3)fucosyltransferase gene into Chinese hamster ovary cells. Complications arise from activation of endogenous alpha-(1,3)fucosyltransferases.
The Journal of biological chemistry 1990;265(3):1615-22.
1990: Sallustio S; Stanley P
Isolation of Chinese hamster ovary ribosomal mutants differentially resistant to ricin, abrin, and modeccin.
The Journal of biological chemistry 1990;265(1):582-8.
1989: Kumar R; Stanley P
Transfection of a human gene that corrects the Lec1 glycosylation defect: evidence for transfer of the structural gene for N-acetylglucosaminyltransferase I.
Molecular and cellular biology 1989;9(12):5713-7.
1989: Chaney W; Sundaram S; Friedman N; Stanley P
The Lec4A CHO glycosylation mutant arises from miscompartmentalization of a Golgi glycosyltransferase.
The Journal of cell biology 1989;109(5):2089-96.
1989: Sallustio S; Stanley P
Novel genetic instability associated with a developmentally regulated glycosyltransferase locus in Chinese hamster ovary cells.
Somatic cell and molecular genetics 1989;15(5):387-400.
1989: Ravdin J I; Stanley P; Murphy C F; Petri W A
Characterization of cell surface carbohydrate receptors for Entamoeba histolytica adherence lectin.
Infection and immunity 1989;57(7):2179-86.
1989: Rosenwald A G; Stanley P; Krag S S
Control of carbohydrate processing: increased beta-1,6 branching in N-linked carbohydrates of Lec9 CHO mutants appears to arise from a defect in oligosaccharide-dolichol biosynthesis.
Molecular and cellular biology 1989;9(3):914-24.
1989: Stanley P
Chinese hamster ovary cell mutants with multiple glycosylation defects for production of glycoproteins with minimal carbohydrate heterogeneity.
Molecular and cellular biology 1989;9(2):377-83.
1988: Stanley P; Atkinson P H
The LEC11 Chinese hamster ovary mutant synthesizes N-linked carbohydrates containing sialylated, fucosylated lactosamine units. Analysis by one- and two-dimensional 1H NMR spectroscopy.
The Journal of biological chemistry 1988;263(23):11374-81.
1987: Howard D R; Fukuda M; Fukuda M N; Stanley P
The GDP-fucose:N-acetylglucosaminide 3-alpha-L-fucosyltransferases of LEC11 and LEC12 Chinese hamster ovary mutants exhibit novel specificities for glycolipid substrates.
The Journal of biological chemistry 1987;262(35):16830-7.
1987: Stanley P
Biochemical characterization of animal cell glycosylation mutants.
Methods in enzymology 1987;138():443-58.
1986: Stanley P
Tumorigenicity of CHO glycosylation mutants in the nude mouse.
Revue française de transfusion et immuno-hématologie 1986;29(4):223-32.
1986: Ripka J; Adamany A; Stanley P
Two Chinese hamster ovary glycosylation mutants affected in the conversion of GDP-mannose to GDP-fucose.
Archives of biochemistry and biophysics 1986;249(2):533-45.
1986: Chaney W; Stanley P
Lec1A Chinese hamster ovary cell mutants appear to arise from a structural alteration in N-acetylglucosaminyltransferase I.
The Journal of biological chemistry 1986;261(23):10551-7.
1986: Chaney W G; Howard D R; Pollard J W; Sallustio S; Stanley P
High-frequency transfection of CHO cells using polybrene.
Somatic cell and molecular genetics 1986;12(3):237-44.
1986: Ripka J; Shin S; Stanley P
Decreased tumorigenicity correlates with expression of altered cell surface carbohydrates in Lec9 CHO cells.
Molecular and cellular biology 1986;6(4):1268-75.
1986: Ripka J; Stanley P
Lectin-resistant CHO cells: selection of four new pea lectin-resistant phenotypes.
Somatic cell and molecular genetics 1986;12(1):51-62.
1985: Stanley P; Chaney W
Control of carbohydrate processing: the lec1A CHO mutation results in partial loss of N-acetylglucosaminyltransferase I activity.
Molecular and cellular biology 1985;5(6):1204-11.
1985: Stanley P
Membrane mutants of animal cells: rapid identification of those with a primary defect in glycosylation.
Molecular and cellular biology 1985;5(5):923-9.
1984: Deutscher S L; Nuwayhid N; Stanley P; Briles E I; Hirschberg C B
Translocation across Golgi vesicle membranes: a CHO glycosylation mutant deficient in CMP-sialic acid transport.
Cell 1984;39(2 Pt 1):295-9.
1984: Campbell C; Stanley P
A dominant mutation to ricin resistance in Chinese hamster ovary cells induces UDP-GlcNAc:glycopeptide beta-4-N-acetylglucosaminyltransferase III activity.
The Journal of biological chemistry 1984;259(21):13370-8.
1984: Dráber P; Stanley P
Isolation and partial characterization of lectin-resistant F9 cells.
Somatic cell and molecular genetics 1984;10(5):445-54.
1984: Dráber P; Stanley P
Cytotoxicity of plant lectins for mouse embryonal carcinoma cells.
Somatic cell and molecular genetics 1984;10(5):435-43.
1984: Campbell C; Stanley P
The Chinese hamster ovary glycosylation mutants LEC11 and LEC12 express two novel GDP-fucose:N-acetylglucosaminide 3-alpha-L-fucosyltransferase enzymes.
The Journal of biological chemistry 1984;259(18):11208-14.
1984: Stanley P; Vivona G; Atkinson P H
1H NMR spectroscopy of carbohydrates from the G glycoprotein of vesicular stomatitis virus grown in parental and Lec4 Chinese hamster ovary cells.
Archives of biochemistry and biophysics 1984;230(1):363-74.
1984: Stanley P
Glycosylation mutants of animal cells.
Annual review of genetics 1984;18():525-52.
1983: Campbell C; Stanley P
Regulatory mutations in CHO cells induce expression of the mouse embryonic antigen SSEA-1.
Cell 1983;35(1):303-9.
1983: Stanley P
Lectin-resistant CHO cells: selection of new mutant phenotypes.
Somatic cell genetics 1983;9(5):593-608.
1983: Stanley P
Selection of lectin-resistant mutants of animal cells.
Methods in enzymology 1983;96():157-84.
1982: Stanley P
Carbohydrate heterogeneity of vesicular stomatitis virus G glycoprotein allows localization of the defect in a glycosylation mutant of CHO cells.
Archives of biochemistry and biophysics 1982;219(1):128-39.
1981: Stanley P
Selection of specific wheat germ agglutinin-resistant (WgaR) phenotypes from Chinese hamster ovary cell populations containing numerous lecR genotypes.
Molecular and cellular biology 1981;1(8):687-96.
1981: Stanley P; Sudo T
Microheterogeneity among carbohydrate structures at the cell surface may be important in recognition phenomena.
Cell 1981;23(3):763-9.
1980: Stanley P; Sudo T; Carver J P
Differential involvement of cell surface sialic acid residues in wheat germ agglutinin binding to parental and wheat germ agglutinin-resistant Chinese hamster ovary cells.
The Journal of cell biology 1980;85(1):60-9.
1978: Stanley P; Carver J P
Binding of [125I] wheat germ agglutinin to Chinese hamster ovary cells under conditions which affect the mobility of membrane components.
The Journal of cell biology 1978;79(3):617-22.
1978: Robertson M A; Etchison J R; Robertson J S; Summers D F; Stanley P
Specific changes in the oligosaccharide moieties of VSV grown in different lectin-resistnat CHO cells.
Cell 1978;13(3):515-26.
1977: Stanley P; Carver J P
Selective loss of wheat germ agglutinin binding to agglutinin-resistant mutants of Chinese hamster ovary cells.
Proceedings of the National Academy of Sciences of the United States of America 1977;74(11):5056-9.
1977: Stanley P; Siminovitch L
Complementation between mutants of CHO cells resistant to a variety of plant lectins.
Somatic cell genetics 1977;3(4):391-405.
1977: Narasimhan S; Stanley P; Schachter H
Control of glycoprotein synthesis. Lectin-resistant mutant containing only one of two distinct N-acetylglucosaminyltransferase activities present in wild type Chinese hamster ovary cells.
The Journal of biological chemistry 1977;252(11):3926-33.
1977: Stanley P; Carver J P
Lectin receptors and lectin resistance in chinese hamster ovary cells.
Advances in experimental medicine and biology 1977;84():265-84.
1976: Stanley P; Siminovitch L
Selection and characterization of Chinese hamster ovary cells resistant to the cytotoxicity of lectins.
In vitro 1976;12(3):208-15.
1975: Stanley P; Caillibot V; Siminovitch L
Selection and characterization of eight phenotypically distinct lines of lectin-resistant Chinese hamster ovary cell.
Cell 1975;6(2):121-8.
1975: Stanley P; Narasimhan S; Siminovitch L; Schachter H
Chinese hamster ovary cells selected for resistance to the cytotoxicity of phytohemagglutinin are deficient in a UDP-N-acetylglucosamine--glycoprotein N-acetylglucosaminyltransferase activity.
Proceedings of the National Academy of Sciences of the United States of America 1975;72(9):3323-7.
1975: Juliano R L; Stanley P
Altered cell surface glycoproteins in phytohemagglutinin-resistant mutants of Chinese hamster ovary cells.
Biochimica et biophysica acta 1975;389(2):401-6.
1975: Stanley P; Caillibot V; Siminovitch L
Stable alterations at the cell membrane of Chinese hamster ovary cells resistant to the cytotoxicity of phytohemagglutinin.
Somatic cell genetics 1975;1(1):3-26.

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