Your search keyword '"Judelson H"' showing total 41 results

1. Loop-mediated isothermal amplification for detection of the tomato and potato late blight pathogen, Phytophthora infestans

Author

Hansen, Z. R., Knaus, B. J., Tabima, J. F., Press, C. M., Judelson, H. S., Grünwald, N. J., and Smart, C. D.

Published

2016

2. The hAT -like DNA transposon DodoPi resides in a cluster of retro- and DNA transposons in the stramenopile Phytophthora infestans

Author

Ah Fong, A. M. V. and Judelson, H. S.

Published

2004

3. A linear RNA replicon from the oomycete Phytophthora infestans

Author

Judelson, H. S. and Fabritius, A.-L.

Published

2000

4. Genome-Wide Association Study Identifies Single Nucleotide Polymorphism Markers Associated with Mycelial Growth (at 15, 20, and 25°C), Mefenoxam Resistance, and Mating Type in Phytophthora infestans

Author

Ayala-Usma, D. A., primary, Danies, G., additional, Myers, K., additional, Bond, M. O., additional, Romero-Navarro, J. A., additional, Judelson, H. S., additional, Restrepo, S., additional, and Fry, W. E., additional

Published

2020

5. Mating-type loci segregate aberrantly in Phytophthora infestans but normally in Phytophthora parasitica: implications for models of mating-type determination

Author

Fabritius, Anna-Liisa and Judelson, H. S.

Published

1997

6. Chromosomal heteromorphism linked to the mating type locus of the oomycetePhytophthora infestans

Author

Judelson, H. S.

Published

1996

7. Genomic Analyses of Dominant U.S. Clonal Lineages ofPhytophthora infestansReveals a Shared Common Ancestry for Clonal Lineages US11 and US18 and a Lack of Recently Shared Ancestry Among All Other U.S. Lineages

Author

Knaus, B. J., primary, Tabima, J. F., additional, Davis, C. E., additional, Judelson, H. S., additional, and Grünwald, N. J., additional

Published

2016

8. Genome analyses of the sunflower pathogen Plasmopara halstedii provide insights into effector evolution in downy mildews and Phytophthora

Author

Sharma, R., Xia, X., Cano, L.M., Evangelisti, E., Kemen, E., Judelson, H., Oome, S., Sambles, C., van den Hoogen, D.J., Kitner, M., Klein, J., Meijer, H.J.G., Spring, O., Win, J., Zipper, R., Bode, H.B., Govers, F., Kamoun, S., Schornack, S., Studholme, D.J., van den Ackerveken, G., Thines, M., Sharma, R., Xia, X., Cano, L.M., Evangelisti, E., Kemen, E., Judelson, H., Oome, S., Sambles, C., van den Hoogen, D.J., Kitner, M., Klein, J., Meijer, H.J.G., Spring, O., Win, J., Zipper, R., Bode, H.B., Govers, F., Kamoun, S., Schornack, S., Studholme, D.J., van den Ackerveken, G., and Thines, M.

Abstract

Background Downy mildews are the most speciose group of oomycetes and affect crops of great economic importance. So far, there is only a single deeply-sequenced downy mildew genome available, from Hyaloperonospora arabidopsidis. Further genomic resources for downy mildews are required to study their evolution, including pathogenicity effector proteins, such as RxLR effectors. Plasmopara halstedii is a devastating pathogen of sunflower and a potential pathosystem model to study downy mildews, as several Avr-genes and R-genes have been predicted and unlike Arabidopsis downy mildew, large quantities of almost contamination-free material can be obtained easily. Results Here a high-quality draft genome of Plasmopara halstedii is reported and analysed with respect to various aspects, including genome organisation, secondary metabolism, effector proteins and comparative genomics with other sequenced oomycetes. Interestingly, the present analyses revealed further variation of the RxLR motif, suggesting an important role of the conservation of the dEER-motif. Orthology analyses revealed the conservation of 28 RxLR-like core effectors among Phytophthora species. Only six putative RxLR-like effectors were shared by the two sequenced downy mildews, highlighting the fast and largely independent evolution of two of the three major downy mildew lineages. This is seemingly supported by phylogenomic results, in which downy mildews did not appear to be monophyletic. Conclusions The genome resource will be useful for developing markers for monitoring the pathogen population and might provide the basis for new approaches to fight Phytophthora and downy mildew pathogens by targeting core pathogenicity effectors.

Published

2015

9. Five Reasons to Consider Phytophthora infestans a Reemerging Pathogen

Author

Fry, W. E., primary, Birch, P. R. J., additional, Judelson, H. S., additional, Grünwald, N. J., additional, Danies, G., additional, Everts, K. L., additional, Gevens, A. J., additional, Gugino, B. K., additional, Johnson, D. A., additional, Johnson, S. B., additional, McGrath, M. T., additional, Myers, K. L., additional, Ristaino, J. B., additional, Roberts, P. D., additional, Secor, G., additional, and Smart, C. D., additional

Published

2015

10. The 2009 Late Blight Pandemic in the Eastern United States – Causes and Results

Author

Fry, W. E., primary, McGrath, M. T., additional, Seaman, A., additional, Zitter, T. A., additional, McLeod, A., additional, Danies, G., additional, Small, I. M., additional, Myers, K., additional, Everts, K., additional, Gevens, A. J., additional, Gugino, B. K., additional, Johnson, S. B., additional, Judelson, H., additional, Ristaino, J., additional, Roberts, P., additional, Secor, G., additional, Seebold, K., additional, Snover-Clift, K., additional, Wyenandt, A., additional, Grünwald, N. J., additional, and Smart, C. D., additional

Published

2013

11. A cluster of NIF transcriptional regulators with divergent patterns of spore-specific expression in

Author

TANI, S, primary, KIM, K, additional, and JUDELSON, H, additional

Published

2005

12. Genetic mapping and non-Mendelian segregation of mating type loci in the oomycete, Phytophthora infestans.

Author

Judelson, H S, primary, Spielman, L J, additional, and Shattock, R C, additional

Published

1995

13. Stable transformation of the oomycete, Phytophthora infestans, using microprojectile bombardment.

Author

Cvitanich, C. and Judelson, H. S.

Subjects

ZOOSPORES, PLANT spores, GENES, CRYPTOBIOSIS, PLANT reproduction, PHYTOPHTHORA infestans

Abstract

Germinated asexual sporangia, zoospores, and mycelia of Phytophthora infestans were transformed to G418-resistance by microprojectile bombardment. After optimization, an average of 14 transformants/shot were obtained, using 106 germinated sporangia and gold particles coated with 1 µg of vector. Transformants displayed tandem or simple insertions of vector sequences within chromosomes. Most primary transformants were heterokaryons of transformed and wild-type nuclei, a state which generally persisted for generations, even with G418 selection. Transgenic homokaryons were easily obtained from primary transformants through G418 selection of zoospores. To facilitate the optimization of transformation, experiments were performed using a vector containing neomycin phosphotransferase (npt) and β-glucuronidase (GUS) genes fused to oomycete transcriptional regulatory sequences. To indicate which orientations of transgenes would maximize their expression, head-to-head, head-to-tail, or tail-to-tail orientations of npt and GUS were compared. Each yielded similar rates of transformation and levels of GUS activity, indicating little transcriptional interference. [ABSTRACT FROM AUTHOR]

Published

2002

14. Chromosomal heteromorphism linked to the mating type locus of the oomycete Phytophthora infestans.

Author

Judelson, H.

Published

1996

15. Accessibility of ribosomal genes to trimethyl psoralen in nuclei of Physarum polycephalum

Author

Judelson, H S and Vogt, V M

Abstract

We have probed the accessibility of the genes for rRNA in Physarum polycephalum by using the photoreactive DNA cross-linking agent 4,5',8-trimethyl psoralen. Nuclei isolated from actively growing Physarum were treated with trimethyl psoralen and irradiated with 360-nm light in order to form cross-links. The palindromic, extrachromosomal rDNA then was isolated, and the positions of cross-links were determined by electron microscopy of the DNA under totally denaturing conditions. The results indicate that the frequency of cross-linking, after correction for base sequence bias of the reaction, is up to sixfold higher in the transcribed regions than in the central or the terminal spacer regions. There is no detectable heterogeneity among the different rDNA molecules or between the halves of a single molecule. Cross-linked molecules invariably occur in a linear as opposed to a cruciform structure. The preferential cross-linking of the transcribed region is nearly eliminated in spherules, a dormant transcriptionally inactive form in the Physarum life cycle.

Published

1982

16. The kinome of Phytophthora infestans reveals oomycete-specific innovations and links to other taxonomic groups

Author

Ah-Fong Audrey MV and Judelson Howard S

Subjects

Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Oomycetes are a large group of economically and ecologically important species. Its most notorious member is Phytophthora infestans, the cause of the devastating potato late blight disease. The life cycle of P. infestans involves hyphae which differentiate into spores used for dispersal and host infection. Protein phosphorylation likely plays crucial roles in these stages, and to help understand this we present here a genome-wide analysis of the protein kinases of P. infestans and several relatives. The study also provides new insight into kinase evolution since oomycetes are taxonomically distant from organisms with well-characterized kinomes. Results Bioinformatic searches of the genomes of P. infestans, P. ramorum, and P. sojae reveal they have similar kinomes, which for P. infestans contains 354 eukaryotic protein kinases (ePKs) and 18 atypical kinases (aPKs), equaling 2% of total genes. After refining gene models, most were classifiable into families seen in other eukaryotes. Some ePK families are nevertheless unusual, especially the tyrosine kinase-like (TKL) group which includes large oomycete-specific subfamilies. Also identified were two tyrosine kinases, which are rare in non-metazoans. Several ePKs bear accessory domains not identified previously on kinases, such as cyclin-dependent kinases with integral cyclin domains. Most ePKs lack accessory domains, implying that many are regulated transcriptionally. This was confirmed by mRNA expression-profiling studies that showed that two-thirds vary significantly between hyphae, sporangia, and zoospores. Comparisons to neighboring taxa (apicomplexans, ciliates, diatoms) revealed both clade-specific and conserved features, and multiple connections to plant kinases were observed. The kinome of Hyaloperonospora arabidopsidis, an oomycete with a simpler life cycle than P. infestans, was found to be one-third smaller. Some differences may be attributable to gene clustering, which facilitates subfamily expansion (or loss) through unequal crossing-over. Conclusion The large sizes of the Phytophthora kinomes imply that phosphorylation plays major roles in their life cycles. Their kinomes also include many novel ePKs, some specific to oomycetes or shared with neighboring groups. Little experimentation to date has addressed the biological functions of oomycete kinases, but this should be stimulated by the structural, evolutionary, and expression data presented here. This may lead to targets for disease control.

Published

2010

17. Expression and antisense inhibition of transgenes in Phytophthora infestans is modulated by choice of promoter and position effects

Author

Judelson, H. S., Dudler, R., Pieterse, C. M. J., and Unkles, S. E.

Published

1993

18. Genome-Wide Association Study Identifies Single Nucleotide Polymorphism Markers Associated with Mycelial Growth (at 15, 20, and 25°C),Mefenoxam Resistance, and Mating Type in Phytophthora infestans.

Author

Ayala-Usma, D. A., Danies, G., Myers, K., Bond, M. O., Romero-Navarro, J. A., Judelson, H. S., Restrepo, S., and Fry, W. E.

Subjects

*PHYTOPHTHORA infestans, *CLIMATE change, *LOW temperatures, *HIGH temperatures

Abstract

Phenotypic diversity among individuals defines the potential for evolutionary selection in a species. Phytophthora infestans epidemics are generally thought to be favored by moderate to low temperatures, but temperatures in many locations worldwide are expected to rise as a result of global climate change. Thus, we investigated variation among individuals of P. infestans for relative growth at different temperatures. Isolates of P. infestans came from three collections: (i) individual genotypes recently dominant in the United States, (ii) recently collected individuals from Central Mexico, and (iii) progeny of a recent sexual recombination event in the northeastern United States. In general, these isolates had optimal mycelial growth rates at 15 or 20°C. However, two individuals from Central Mexico grew better at higher temperatures than did most others and two individuals grew relatively less at higher temperatures than did most others. The isolates were also assessed for mefenoxam sensitivity and mating type. Each collection contained individuals of diverse sensitivities to mefenoxam and individuals of the A1 and A2 mating type. We then searched for genomic regions associated with phenotypic diversity using genotyping-bysequencing. We found one single nucleotide polymorphism (SNP) associated with variability in mycelial growth at 20°C, two associated with variability in mycelial growth at 25°C, two associated with sensitivity to mefenoxam, and one associated with mating type. Interestingly, the SNPs associated with mefenoxam sensitivity were found in a gene-sparse region, whereas the SNPs associated with growth at the two temperatures and mating type were found both at more gene-dense regions. [ABSTRACT FROM AUTHOR]

Published

2020

19. Genomic Analyses of Dominant U.S. Clonal Lineages of Phytophthora infestans Reveals a Shared Common Ancestry for Clonal Lineages US11 and US18 and a Lack of Recently Shared Ancestry Among All Other U.S. Lineages.

Author

Knaus, B. J., Grünwald, N. J., Tabima, J. F., Davis, C. E., and Judelson, H. S.

Subjects

*PHYTOPHTHORA infestans, *COMMON descent (Evolution), *GENETIC markers in plants, *PHYLOGENY, *NUCLEOTIDE sequencing

Abstract

Populations of the potato and tomato late-blight pathogen Phytophthora infestans are well known for emerging as novel clonal lineages. These successions of dominant clones have historically been named US1 through US24, in order of appearance, since their first characterization using molecular markers. Hypothetically, these lineages can emerge through divergence from other U.S. lineages, recombination among lineages, or as novel, independent lineages originating outside the United States. We tested for the presence of phylogenetic relationships among U.S. lineages using a population of 31 whole-genome sequences, including dominant U.S. clonal lineages as well as available samples from global populations. We analyzed ancestry of the whole mitochondrial genome and samples of nuclear loci, including supercontigs 1.1 and 1.5 as well as several previously characterized coding regions. We found support for a shared ancestry among lineages US11 and US18 from the mitochondrial genome as well as from one nuclear haplotype on each supercontig analyzed. The other nuclear haplotype from each sample assorted independently, indicating an independent ancestry. We found no support for emergence of any other of the U.S. lineages from a common ancestor shared with the other U.S. lineages. Each of the U.S. clonal lineages fit a model where populations of new clonal lineages emerge via migration from a source population that is sexual in nature and potentially located in central Mexico or elsewhere. This work provides novel insights into patterns of emergence of clonal lineages in plant pathogen genomes. [ABSTRACT FROM AUTHOR]

Published

2016

20. Nutritional factors modulating plant and fruit susceptibility to pathogens: BARD workshop, Haifa, Israel, February 25–26, 2018

Author

Virginia Casado-Del Castillo, Nicole M. Donofrio, Richard Wilson, Gustavo H. Goldman, Tânia R. Fernandes, Dov Prusky, Riccardo Baroncelli, Shay Covo, Edward Sionov, Jin-Rong Xu, Serenella A. Sukno, Antonio Di Pietro, Benjamin A. Horwitz, Michael R. Thon, Howard S. Judelson, Richard B. Todd, Ernesto P. Benito, Lars M. Voll, José María Díaz-Mínguez, Daniela E. Nordzieke, Leandro José de Assis, Timothy Chaya, Eduardo A. Espeso, United States - Israel Binational Agricultural Research and Development Fund, Prusky, Dov, De Assis, Leandro José, Baroncelli, Riccardo, Benito, Ernesto P., Espeso, Eduardo A., Goldman, Gustavo, Judelson, Howard, Nordzieke, Daniela, Di Pietro, Antonio, Sionov, Edward, Sukno, S.A., Thon, Michael R., Todd, Richard B., Voll, Lars, Horwitz, Benjamin, Prusky D., de Assis L.J., Baroncelli R., Benito E.P., del Castillo V.C., Chaya T., Covo S., Diaz-Minguez J.M., Donofrio N.M., Espeso E., Fernandes T.R., Goldman G.H., Judelson H., Nordzieke D., Di Pietro A., Sionov E., Sukno S.A., Thon M.R., Todd R.B., Voll L., Xu J.R., Horwitz B.A., Wilson R.A., Prusky, Dov [0000-0002-3350-4358], De Assis, Leandro José [0000-0001-9782-437X], Baroncelli, Riccardo [0000-0002-5878-1159, Benito, Ernesto P. [0000-0002-9873-0970], Espeso, Eduardo A. [0000-0002-5873-6059], Goldman, Gustavo [0000-0002-2986-350X], Judelson, Howard [0000-0001-7865-6235], Nordzieke, Daniela [0000-0001-6621-2565], Di Pietro, Antonio [0000-0001-5930-5763], Sionov, Edward [0000-0002-8640-5783], Sukno, S.A. [0000-0003-3248-6490], Thon, Michael R. [0000-0002-7225-7003], Todd, Richard B. [0000-0002-3494-948X], Voll, Lars [0000-0002-8723-9131], and Horwitz, Benjamin [0000-0002-1558-4497]

Subjects

0106 biological sciences, Carbon metabolism, Plant Science, Biology, PH sensor, 01 natural sciences, Intracellular redox state, Fusarium, Nitrogen metabolism, Pathogen, business.industry, Effector, Host (biology), Workshop report 2018, Nutritional factor, food and beverages, NUTRIÇÃO VEGETAL, Aspergillu, Biotechnology, Nutritional factors, 010602 entomology, Magnaporthe, Fungal, Aspergillus, Insect Science, business, 010606 plant biology & botany

Abstract

32 p.-3 fig., The molecular dialog between fungal pathogens and their plant hosts is governed by signals from the plant, secreted pathogen effectors and enzymes, and the plant immune system. There is an increasing awareness that nutritional factors are also central to fungal-plant interactions. Nutritional factors include carbon and nitrogen metabolism, local pH and redox state, and manipulation of host metabolism by secreted pathogen effectors. A diverse combination of approaches from genetics, biochemistry and fungal and plant cell biology addresses these questions, and a workshop whose abstracts accompany this note was held in 2018 to bring these together. Questions were asked about how the lifestyles and nutritional strategies of eukaryotic filamentous phytopathogens are related to the metabolic architectures and pathogenic processes affecting both plant hosts and their pathogens. The aim for future work will be to provide metabolism-based strategies for pathogen control., We thank the US-Israel Binational Agricultural Research and Development Fund (BARD) for funding the workshop (number W-104-17).

Published

2020

21. Genome analyses of the sunflower pathogen Plasmopara halstedii provide insights into effector evolution in downy mildews and Phytophthora.

Author

Sharma R, Xia X, Cano LM, Evangelisti E, Kemen E, Judelson H, Oome S, Sambles C, van den Hoogen DJ, Kitner M, Klein J, Meijer HJ, Spring O, Win J, Zipper R, Bode HB, Govers F, Kamoun S, Schornack S, Studholme DJ, Van den Ackerveken G, and Thines M

Subjects

Biological Evolution, Fungal Proteins, Gene Expression Profiling, Genomics methods, Heterozygote, Microsatellite Repeats, Oomycetes classification, Oomycetes metabolism, Phospholipids metabolism, Phylogeny, Phytophthora genetics, Promoter Regions, Genetic, Repetitive Sequences, Nucleic Acid, Secondary Metabolism, Signal Transduction, Virulence Factors genetics, Genome, Fungal, Helianthus microbiology, Oomycetes genetics

Abstract

Background: Downy mildews are the most speciose group of oomycetes and affect crops of great economic importance. So far, there is only a single deeply-sequenced downy mildew genome available, from Hyaloperonospora arabidopsidis. Further genomic resources for downy mildews are required to study their evolution, including pathogenicity effector proteins, such as RxLR effectors. Plasmopara halstedii is a devastating pathogen of sunflower and a potential pathosystem model to study downy mildews, as several Avr-genes and R-genes have been predicted and unlike Arabidopsis downy mildew, large quantities of almost contamination-free material can be obtained easily., Results: Here a high-quality draft genome of Plasmopara halstedii is reported and analysed with respect to various aspects, including genome organisation, secondary metabolism, effector proteins and comparative genomics with other sequenced oomycetes. Interestingly, the present analyses revealed further variation of the RxLR motif, suggesting an important role of the conservation of the dEER-motif. Orthology analyses revealed the conservation of 28 RxLR-like core effectors among Phytophthora species. Only six putative RxLR-like effectors were shared by the two sequenced downy mildews, highlighting the fast and largely independent evolution of two of the three major downy mildew lineages. This is seemingly supported by phylogenomic results, in which downy mildews did not appear to be monophyletic., Conclusions: The genome resource will be useful for developing markers for monitoring the pathogen population and might provide the basis for new approaches to fight Phytophthora and downy mildew pathogens by targeting core pathogenicity effectors.

Published

2015

22. Signatures of adaptation to obligate biotrophy in the Hyaloperonospora arabidopsidis genome.

Author

Baxter L, Tripathy S, Ishaque N, Boot N, Cabral A, Kemen E, Thines M, Ah-Fong A, Anderson R, Badejoko W, Bittner-Eddy P, Boore JL, Chibucos MC, Coates M, Dehal P, Delehaunty K, Dong S, Downton P, Dumas B, Fabro G, Fronick C, Fuerstenberg SI, Fulton L, Gaulin E, Govers F, Hughes L, Humphray S, Jiang RHY, Judelson H, Kamoun S, Kyung K, Meijer H, Minx P, Morris P, Nelson J, Phuntumart V, Qutob D, Rehmany A, Rougon-Cardoso A, Ryden P, Torto-Alalibo T, Studholme D, Wang Y, Win J, Wood J, Clifton SW, Rogers J, Van den Ackerveken G, Jones JDG, McDowell JM, Beynon J, and Tyler BM

Subjects

Adaptation, Physiological, Amino Acid Sequence, Enzymes genetics, Gene Dosage, Genes, Host-Pathogen Interactions, Metabolic Networks and Pathways genetics, Molecular Sequence Data, Oomycetes pathogenicity, Oomycetes physiology, Phytophthora genetics, Polymorphism, Single Nucleotide, Proteins genetics, Selection, Genetic, Sequence Analysis, DNA, Spores physiology, Synteny, Virulence Factors genetics, Arabidopsis parasitology, Evolution, Molecular, Genome, Oomycetes genetics, Oomycetes growth & development, Plant Diseases parasitology

Abstract

Many oomycete and fungal plant pathogens are obligate biotrophs, which extract nutrients only from living plant tissue and cannot grow apart from their hosts. Although these pathogens cause substantial crop losses, little is known about the molecular basis or evolution of obligate biotrophy. Here, we report the genome sequence of the oomycete Hyaloperonospora arabidopsidis (Hpa), an obligate biotroph and natural pathogen of Arabidopsis thaliana. In comparison with genomes of related, hemibiotrophic Phytophthora species, the Hpa genome exhibits dramatic reductions in genes encoding (i) RXLR effectors and other secreted pathogenicity proteins, (ii) enzymes for assimilation of inorganic nitrogen and sulfur, and (iii) proteins associated with zoospore formation and motility. These attributes comprise a genomic signature of evolution toward obligate biotrophy.

Published

2010

23. Activation of zoosporogenesis-specific genes in Phytophthora infestans involves a 7-nucleotide promoter motif and cold-induced membrane rigidity.

Author

Tani S and Judelson H

Subjects

Amino Acid Sequence, Benzyl Alcohol pharmacology, Dimethyl Sulfoxide pharmacology, Elasticity, Gene Deletion, Gene Expression Regulation drug effects, Molecular Sequence Data, Phytophthora physiology, Spores, Fungal genetics, Transcription Factors physiology, Amino Acid Motifs, Cell Membrane physiology, Cold Temperature, Nucleotides physiology, Phytophthora genetics, Promoter Regions, Genetic physiology, Spores, Fungal growth & development

Abstract

Infections of plants by the oomycete Phytophthora infestans typically result from zoospores, which develop from sporangia at cold temperatures. To help understand the relevant cold-induced signaling pathway, factors regulating the transcription of the zoosporogenesis-specific NIF (nuclear LIM-interactor-interacting factor) gene family were examined. Sequences required for inducing PinifC3 were identified by analyzing truncated and mutated promoters using the beta-glucuronidase reporter in stable transformants. A 7-nucleotide (nt) sequence located 139 bases upstream of the major transcription start point (GGACGAG) proved essential for the induction of PinifC3 when sporangia were shifted from ambient to cold temperatures. The motif, named the cold box, also conferred cold inducibility to a promoter normally activated only during sexual development. An identical motif was detected in the two other zoosporogenesis-specific NIF genes from P. infestans and three Phytophthora sojae orthologues, and a closely related sequence was found in Phytophthora ramorum orthologues. The 7-nt motif was also found in the promoters of other zoosporogenesis-induced genes. The presence of a cold box-interacting protein in nuclear extracts of P. infestans sporangia was demonstrated using electrophoretic mobility shift assays. Furthermore, zoospore release and cold box-regulated transcription were stimulated by the membrane rigidizer dimethyl sulfoxide and inhibited by the membrane fluidizer benzyl alcohol. The data therefore delineate a pathway in which sporangia perceive cold temperatures through membrane rigidity, which activates signals that drive both zoosporogenesis and cold-box-mediated transcription.

Published

2006

24. Enhanced Polymerase Chain Reaction Methods for Detecting and Quantifying Phytophthora infestans in Plants.

Author

Judelson HS and Tooley PW

Abstract

ABSTRACT Sensitive and specific primer sets for polymerase chain reaction (PCR) for Phytophthora infestans, the oomycete that causes late blight of potato and tomato, were developed based on families of highly repeated DNA. The performance of these primers was compared to those developed previously for the internal transcribed spacer (ITS) of ribosomal DNA. The detection limit using the new primers is 10 fg of P. infestans DNA, or 0.02 nuclei. This is about 100 times more sensitive than ITS-directed primers. Nested polymerase chain reaction (PCR) allows the measurement of down to 0.1 fg of DNA using the new primers. To enhance the reliability of diagnostic assays, an internal positive control was developed using an amplification mimic. The mimic also served as a competitor for quantitative PCR, which was used to assess the growth of P. infestans in resistant and susceptible tomato. A key dimension of this study was that two laboratories independently checked the specificity and sensitivity of each primer set; differences were noted that should be considered when PCR is adopted for diagnostic applications in any system.

Published

2000

25. Construction of a bacterial artificial chromosome library of Phytophthora infestans and transformation of clones into P. infestans.

Author

Randall TA and Judelson HS

Subjects

Cloning, Molecular, DNA, Fungal genetics, Nucleic Acid Hybridization, Polymerase Chain Reaction methods, Chromosomes, Bacterial genetics, Gene Library, Phytophthora genetics, Transformation, Genetic

Abstract

A bacterial artificial chromosome (BAC) library of Phytophthora infestans was constructed in a derivative of pBELOBACII that had been modified by adding a npt selectable marker gene for transforming P. infestans. A total library of 8 genome equivalents was generated and 16,128 clones with inserts averaging 75 kb (4.9 genome equivalents) were individually picked and stored as an arrayed library in microtiter plates. This coverage was confirmed by screening the library for 11 DNA loci by colony hybridization and by polymerase chain reaction of DNA pools. Transformation of P. infestans with BAC clones containing inserts of 93 to 135 kb was demonstrated. The efficiency of transformation with most BACs was noticeably higher than that with smaller plasmids. Detailed analyses of transformants obtained with a 102-kb BAC indicated that entire inserts were present in about one-quarter of the transformants., (Copyright 1999 Academic Press.)

Published

1999

26. Multiple Loci Determining Insensitivity to Phenylamide Fungicides in Phytophthora infestans.

Author

Judelson HS and Roberts S

Abstract

ABSTRACT The diversity of mechanisms causing insensitivity to phenylamide fungicides in Phytophthora infestans was addressed by comparative genetic analyses of isolates from North America, Europe, and Mexico. Both semidominant major loci (MEX loci) and genes of minor effect were previously shown to determine insensitivity based on studies of isolates from Europe and Mexico. In this investigation, genetic analyses of three highly insensitive isolates from the United States and Canada revealed a similar pattern involving major and minor loci. However, MEX alleles in two Canadian isolates conferred higher levels of insensitivity than those examined previously, particularly in a heterozygous state. This suggested that not all MEX alleles in P. infestans were functionally equivalent. The chromosomal locations of the major insensitivity loci were also shown to vary in different isolates based on linkage analyses performed with the aid of DNA markers. The major determinant of insensitivity in the North American, Dutch, and Mexican isolates mapped to the same locus, which was named MEX1. In a British isolate, a different locus, dubbed MEX2, was implicated that mapped to the same linkage group as MEX1 but to a distinct site.

Published

1999

27. Families of repeated DNA in the oomycete Phytophthora infestans and their distribution within the genus.

Author

Judelson HS and Randall TA

Subjects

DNA, Plant chemistry, Gene Library, Species Specificity, DNA, Plant genetics, Phylogeny, Phytophthora classification, Phytophthora genetics, Repetitive Sequences, Nucleic Acid

Abstract

The abundance, genomic organization, species distribution, and structure of 33 distinct families of repetitive DNA in Phytophthora are described. The families were identified by screening a library of Phytophthora infestans DNA for repetitive sequences. These was subsequently characterized within 26 species distributed within each of the six taxonomic groups traditionally defined within the genus. Some repeat elements were specific to P. infestans and its close relative, Phytophthora mirabilis, while other repeated sequences were present in most species. The distribution of the DNA families did not conform to the traditional taxonomic groups used for the genus. Characterization of the repeated sequences in P. infestans indicated that they included both dispersed and tandemly repeated elements, with copy numbers ranging from 70 to 8400 per haploid genome. In total, these repeats were estimated to represent 51% of the nuclear genome of P. infestans. Reverse transcriptase motifs were detected in seven of the repeat families that were widely distributed throughout the genus.

Published

1998

28. The ipiO gene of Phytophthora infestans is highly expressed in invading hyphae during infection.

Author

van West P, de Jong AJ, Judelson HS, Emons AM, and Govers F

Subjects

Blotting, Northern, Blotting, Southern, Gene Expression, Genes, Reporter, Glucuronidase genetics, Glucuronidase metabolism, Histocytochemistry, Phytophthora growth & development, Plant Diseases microbiology, Plant Leaves microbiology, Promoter Regions, Genetic, RNA, Fungal analysis, Spores, Fungal genetics, Transformation, Genetic, Fungal Proteins genetics, Genes, Fungal, Solanum lycopersicum microbiology, Phytophthora genetics, Solanum tuberosum microbiology

Abstract

The expression of the in planta-induced gene ipiO of the potato late blight pathogen Phytophthora infestans was analyzed during various developmental stages of its life cycle. ipiO mRNA was detected in zoospores, cysts, germinating cysts, and young mycelia, but not in sporangia or in old mycelia grown in vitro. ipiO is not only expressed in stages prior to infection but also during colonization of potato and tomato leaves. In disease lesions, ipiO mRNA was detected in the water-soaked area and the healthy-looking plant tissue surrounding it. In contrast, ipiO mRNA was not found in necrotized tissue or in sporulating areas of a lesion. To determine more precisely the location and time of ipiO gene expression in planta, cytological assays were performed using a P. infestans transformant expressing a transcriptional fusion between the ipiO1 promoter and the beta-glucuronidase (GUS) reporter gene. GUS staining was found specifically in the subapical and vacuolated area of tips of invading hyphae. The histochemical GUS assays demonstrate that ipiO is expressed during biotrophic stages of the disease cycle., (Copyright 1998 Academic Press.)

Published

1998

29. The genetics and biology of Phytophthora infestans: modern approaches to a historical challenge.

Author

Judelson HS

Subjects

Phytophthora classification, Plants microbiology, Genome, Fungal, Phytophthora genetics, Phytophthora physiology

Abstract

The oomyceteous fungus Phytophthora infestans, which causes the late blight diseases of potato and tomato, has a history that is closely associated with that of mycology and plant pathology. Nevertheless, P. infestans and other oomycetes remain poorly understood relative to fungi in other groups. A resurgence in the worldwide impact of late blight has recently increased interest in the species. Fortunately, over the past decade improved tools for laboratory analysis have been developed which provide an opportunity to advance our understanding of this important pathogen. Since oomycetes do not have a close taxonomic affinity with well-characterized organisms such as ascomycetes and basidiomycetes, it is likely that studies of P. infestans will yield novel biological findings. This review provides an update on the status of research into the fundamental aspects of the biology, genetics, and pathology of P. infestans and describes prospects for future advances., (Copyright 1997 Academic Press.)

Published

1997

30. Genetic Analysis of Metalaxyl Insensitivity Loci in Phytophthora infestans Using Linked DNA Markers.

Author

Fabritius AL, Shattock RC, and Judelson HS

Abstract

ABSTRACT Previous studies indicated that incompletely dominant loci determine insensitivity by oomycetes to phenylamide fungicides such as metalaxyl. To compare the bases of insensitivity in different strains of the late blight pathogen, Phytophthora infestans, crosses were performed between sensitive isolates and isolates from Mexico, the Netherlands, and the United Kingdom that displayed varying levels of insensitivity. Segregation analyses indicated that metalaxyl insensitivity was determined primarily by one locus in each isolate, and that two of the isolates were heterozygous and the other homozygous for the insensitive allele. Metalaxyl insensitivity was also affected by the segregation of additional loci of minor effect. DNA markers linked to insensitivity were obtained by bulked segregant analysis using random amplified polymorphic DNA (RAPD) markers and the Dutch and Mexican crosses. By studying the linkage relationships between these markers and the insensitivity in each cross by RAPD or restriction fragment length polymorphism analysis, it appeared that the same chromosomal locus conferred insensitivity in the Mexican and Dutch isolates. However, a gene at a different chromosomal position was responsible for insensitivity in the British isolate.

Published

1997

31. Genetic and physical variability at the mating type locus of the oomycete, Phytophthora infestans.

Author

Judelson HS

Subjects

DNA Fingerprinting, Genetic Markers, Genes, Fungal, Genes, Mating Type, Fungal, Genetic Variation, Phytophthora genetics

Abstract

Mating type in the oomyceteous fungus, Phytophthora infestans, is determined by a single locus. In a previous study of a few isolates, the locus segregated in a manner genetically consistent with its linkage to a system of balanced lethal loci. To determine the prevalence of this phenomenon within P. infestans, genetic analyses were performed using isolates representative of the diversity within the species that had been selected by DNA fingerprinting using probes linked to mating type. Non-Mendelian segregation of the mating type locus was observed in crosses performed with each isolate. An unusual group of isolates was identified in which the mating type determinants had been rearranged within the genome; these strains also produced an aberrantly large number of self-fertile progeny. Curiously, in all isolates, markers linked to the mating type locus appeared prone to duplication, transposition, deletion, or other rearrangement. This was not observed for loci unlinked to mating type. Data from the crosses and analyses of marker variation were used to erect models to explain the bases of mating type determination and of the unusual segregation of the chromosomal region containing the mating type locus.

Published

1996

32. Inactivation of transgenes in Phytophthora infestans is not associated with their deletion, methylation, or mutation.

Author

Judelson HS and Whittaker SL

Subjects

Base Sequence, Cell Division genetics, Gene Deletion, Genetic Markers, Glucuronidase genetics, In Situ Hybridization, Kanamycin Kinase, Meiosis, Methylation, Mitosis, Molecular Sequence Data, Phosphotransferases (Alcohol Group Acceptor) genetics, Promoter Regions, Genetic, Reproduction, Selection, Genetic, Transformation, Genetic, Gene Expression Regulation, Fungal, Genes, Fungal, Mutation, Phytophthora genetics, Transgenes

Abstract

The mitotic and meiotic stabilities of transgenes were evaluated in the oomycete, Phytophthora infestans. Genes encoding beta-glucuronidase (GUS), neomycin phosphotransferase (NPT) and hygromycin phosphotransferase (HPT), fused to one of six promoters from P. infestans or other oomycetes, were usually stably expressed during continued asexual culture and transmitted to progeny. However, the activity of these genes became undetectable in many strains during asexual or sexual propagation. Over 33 months of growth, transgene expression stopped each month in 1-3% of the transformants. Silencing of the genes was not associated with their deletion, mutation, or hypermethylation. The conformation of the integrated sequences was similar in strains destined to continue or terminate expression of the transgenes. Expression of the genes was not associated with a loss of fitness during growth in vitro and in planta, which might otherwise have selected for silencing events.

Published

1995

33. Intermolecular ligation mediates efficient cotransformation in Phytophthora infestans.

Author

Judelson HS

Subjects

DNA, Fungal genetics, Plasmids, Recombination, Genetic, Restriction Mapping, DNA, Fungal metabolism, Phytophthora genetics, Transformation, Genetic

Abstract

The processing of DNA molecules during transformation was characterized in the oomycete Phytophthora infestans. Linear and circular forms of non-replicating transformation vectors supported similar rates of stable transformation. Remarkably, digestion of plasmids within the selectable marker genes neomycin phosphotransferase (npt) or hygromycin phosphotransferase (hpt) had little effect on the recovery of drug-resistant transformants, and the cleaved sites were shown to be reconstituted in the transformants. An assay for the transient expression of beta-glucuronidase (GUS) in protoplasts treated with partial or disrupted GUS genes demonstrated that active genes could be reconstituted through intramolecular and/or intermolecular ligation between compatible ends, while incompatible ends were inefficiently joined. Stable transformation studies also demonstrated that complementing portions of incomplete npt or hpt genes joined through homologous recombination. Based on the indication of efficient ligation between DNA molecules during transformation, an efficient procedure for cotransformation was developed. The frequency of cotransformation between vectors expressing selected genes (npt or hpt) and nonselected sequences (GUS, beta-galactosidase, or streptomycin phosphotransferase) approached unity when the plasmids were linearized with the same restriction enzyme before transformation. In contrast, cotransformation between circular plasmids or those cut with different enzymes occurred infrequently (10%). Hybridization analysis of DNA from cotransformants demonstrated that linearized plasmids became colocalized within genomic DNA, while circular plasmids typically inserted at unliked sites.

Published

1993

34. Transformation of the oomycete pathogen Phytophthora megasperma f. sp. glycinea occurs by DNA integration into single or multiple chromosomes.

Author

Judelson HS, Coffey MD, Arredondo FR, and Tyler BM

Subjects

Chromosome Mapping, Drug Resistance, Microbial, Gene Expression, Phosphotransferases genetics, DNA, Fungal genetics, Genetic Vectors, Phosphotransferases (Alcohol Group Acceptor), Phytophthora genetics

Abstract

A procedure for stable transformation was developed for Phytophthora megasperma f. sp. glycinea, an oomycete pathogen of soybean. Transformants were obtained using a bacterial hygromycin resistance gene fused to a promoter and terminator from the ham34 gene of another oomycete, Bremia lactucae. Vector DNA, alone or complexed to cationic liposomes, was introduced into protoplasts using polyethylene glycol and CaCl2. DNA and RNA hybridization, and phosphotransferase assays, confirmed the presence and expression of vector DNA in the transformants. Hybridization to electrophoretically separated chromosomes of P. m. glycinea showed that vector DNA had integrated into only one chromosome in four transformants, and into multiple chromosomes in one transformant.

Published

1993

35. Regulatory sequences for expressing genes in oomycete fungi.

Author

Judelson HS, Tyler BM, and Michelmore RW

Subjects

Base Sequence, DNA, Fungal, Genes, Fungal, Glucuronidase genetics, Molecular Sequence Data, Oomycetes enzymology, Phytophthora genetics, Promoter Regions, Genetic, RNA, Fungal metabolism, Species Specificity, Terminator Regions, Genetic, Transcription, Genetic, Transformation, Genetic, Gene Expression Regulation, Fungal, Oomycetes genetics, Regulatory Sequences, Nucleic Acid

Abstract

Promoter and terminator sequences from a range of species were tested for activity in the oomycetes, a group of lower fungi that bear an uncertain taxonomic affinity to other organisms and in which little is known of the sequences required for transcription. Transient assays, using the reporter gene beta-glucuronidase (GUS), were used to examine the function of these promoters and terminators in the plant pathogens Phytophthora infestans and P. megasperma f. sp. glycinea, and in the saprophytic water mold, Achlya ambisexualis. Oomycete promoters, isolated from the ham34 and hsp70 genes of Bremia lactucae and the actin gene of P. megasperma f. sp. glycinea, resulted in high levels of GUS accumulation in each of the three oomycetes. In contrast, little or no activity was detected when promoters from higher fungi (four ascomycetes and one basidiomycete), plants, and animals were tested. The terminator from the ham34 gene resulted in much higher levels of GUS accumulation than did others, although an oomycete terminator was not absolutely required for expression. Transcript mapping of RNA from stable transformants confirmed accurate initiation from the B. lactucae hsp70 promoter and termination within 3' ham34 sequences in P. infestans. Our results indicate that the transcriptional machinery of the oomycetes differs significantly from that of the higher fungi, but that enough conservation exists within the class to allow vectors developed from one oomycete species to be used for others.

Published

1992

36. Transformation of the oomycete pathogen, Phytophthora infestans.

Author

Judelson HS, Tyler BM, and Michelmore RW

Subjects

Base Sequence, DNA, Drug Resistance genetics, Genes, Bacterial, Genetic Markers, Gentamicins pharmacology, Hygromycin B analogs & derivatives, Hygromycin B pharmacology, Molecular Sequence Data, Nucleic Acid Hybridization, Oomycetes genetics, Plants microbiology, Plasmids, Regulatory Sequences, Nucleic Acid, Transcription, Genetic, Cinnamates, Phytophthora genetics, Transformation, Genetic

Abstract

A stable transformation procedure has been developed for Phytophthora infestans, an oomycete fungus that causes the late blight diseases of potato and tomato. This is the first description of reliable methods for transformation in an oomycete pathogen. Drug-resistant transformants were obtained by using vectors that contained bacterial genes for resistance to hygromycin B or G418 fused to promoters and terminators from the Hsp70 and Ham34 genes of the oomycete, Bremia lactucae. Using polyethylene glycol and CaCl2, vector DNA was introduced into protoplasts as a complex with cationic liposomes or with carrier DNA only. Transformants were obtained at similar frequencies with each combination of promoter and selectable marker and were confirmed by DNA and RNA hybridization and phosphotransferase assays. Transformation occurred through the integration of single or tandemly repeated copies of the plasmids into genomic DNA, conferring mitotically stable drug-resistant phenotypes. The sizes of the marker gene mRNAs in each transformant and the results of transcript mapping studies were consistent with the function of the B. lactucae regulatory sequences in P. infestans. A hygromycin-resistant transformant was tested and found to maintain pathogenicity, indicating that the gene transfer procedure will be useful for the molecular analysis of genes relevant to disease.

Published

1991

37. Highly abundant and stage-specific mRNAs in the obligate pathogen Bremia lactucae.

Author

Judelson HS and Michelmore RW

Subjects

Amino Acid Sequence, Base Sequence, Cloning, Molecular, DNA, Fungal, Genes, Fungal, Genomic Library, Molecular Sequence Data, Nucleic Acid Hybridization, Plants microbiology, Promoter Regions, Genetic, Transformation, Genetic, Oomycetes genetics, RNA, Fungal genetics

Abstract

Germinating spores of the obligate pathogen Bremia lactucae (lettuce downy mildew) contain several unusually abundant species of mRNA. Thirty-nine cDNA clones corresponding to prevalent transcripts were isolated from a library synthesized using poly(A)+ RNA from germinating spores; these clones represented only five distinct classes. Each corresponding mRNA accounted for from 0.4 to 9 percent by mass of poly(A)+ RNA from germinating spores and together represented greater than 20 percent of the mRNA. The expression of the corresponding genes, and a gene encoding Hsp70, was analyzed in spores during germination and during growth in planta. The Hsp70 mRNA and mRNA from one abundant cDNA clone (ham34) were expressed constitutively. Two clones (ham9 and ham12) hybridized only to mRNA from spores and germinating spores. Two clones (ham37 and ham27) showed hybridization specific to germinating spores. Quantification of the number of genes homologous to each cDNA clone indicated that four clones corresponded to one or two copies per haploid genome, and one hybridized to an approximately 11-member family of genes. A sequence of the gene corresponding to ham34 was obtained to investigate its function and to identify sequences conferring high levels of gene expression for use in constructing vectors for the transformation of B. lactucae.

Published

1990

38. Structure and expression of a gene encoding heat-shock protein Hsp70 from the Oomycete fungus Bremia lactucae.

Author

Judelson HS and Michelmore RW

Subjects

Amino Acid Sequence, Base Composition, Base Sequence, Cloning, Molecular, DNA Probes, DNA, Fungal biosynthesis, DNA, Fungal genetics, Heat-Shock Proteins biosynthesis, Hot Temperature, Introns, Molecular Sequence Data, Oomycetes physiology, Promoter Regions, Genetic, RNA, Fungal genetics, RNA, Fungal metabolism, RNA, Messenger genetics, RNA, Messenger metabolism, Repetitive Sequences, Nucleic Acid, Transformation, Genetic, Chytridiomycota genetics, Genes, Fungal, Heat-Shock Proteins genetics, Oomycetes genetics

Abstract

A gene encoding a protein homologous to a 70-kDa heat-shock protein (Hsp70) was isolated from Bremia lactucae and its structure and pattern of expression were determined. This is the first report on the structure of a protein-coding gene from an Oomycete fungus. The cloned gene is a member of a small multigene family. The level of hsp70 mRNA in germlings increases from a low constitutive level in response to heat or cold treatment. A high level of the mRNA is also detected in spores. The hsp70 gene is expressed as a primary transcript of 2241 nucleotides (nt) and contains a continuous open reading frame of 2025 nt. Near the C terminus of the coding sequence is an unusual region that contains repeated enhancer-like sequences. This insert has not been described in other hsp70 genes and is not an intron. Upstream from the 5' terminus of the mRNA are multiple CCAAT motifs, a sequence similar to a consensus heat-shock regulatory element, and an A + T-rich putative 'TATA' box. A canonical polyadenylation recognition sequence is present downstream from the coding sequence. The deduced amino acid sequence is equally similar to yeast and maize Hsp70, providing further evidence of the dissimilarity between Oomycetes and true fungi. The cloning of this gene is part of our strategy to develop a transformation system for B. lactucae.

Published

1989

39. A locus regulating N-acetylglucosaminidase synthesis during development in dictyostelium.

Author

Judelson HS, Burns RA, and Dimond RL

Subjects

Acetylglucosaminidase biosynthesis, Acetylglucosaminidase immunology, Antibodies, Monoclonal, Dictyostelium enzymology, Dictyostelium genetics, Diploidy, Enzyme Induction, Gene Expression Regulation, Genes, Fungal, Immunosorbent Techniques, Mutation, Acetylglucosaminidase genetics, Dictyostelium growth & development, Hexosaminidases genetics

Abstract

The cellular specific activity of N-acetylglucosaminidase increases during development in Dictyostelium discoideum. A monoclonal antibody which specifically recognizes Mr 68,000 and 67,000 forms of N-acetylglucosaminidase was used to show that changes in the relative rate of enzyme synthesis during development parallel the pattern of enzyme accumulation. Developmental and regulatory mutants were isolated to study the relationship between development and enzyme accumulation. No evidence was obtained for any dependence of enzyme accumulation on those genes that are required for aggregation. However, a separate regulatory locus was identified which is involved in enzyme accumulation. Mutations in this gene, nagC, prevent enzyme accumulation during development by preventing an increase in the relative synthetic rate of N-acetylglucosaminidase. The accumulation of other enzymes is unaffected and the mutation causes no developmental defects other than those caused by the loss of N-acetylglucosaminidase activity. The nagC mutation, which is recessive, maps to linkage group VI and is therefore unlinked to the structural gene for N-acetylglucosaminidase.

Published

1987

40. Characterization and distribution of multiple antigens on N-linked oligosaccharides of Dictyostelium discoideum proteins.

Author

Judelson HS, Freeze HH, and Dimond RL

Subjects

Antibodies, Monoclonal, Enzyme-Linked Immunosorbent Assay, Epitopes analysis, Immunochemistry, Antigens, Fungal analysis, Dictyostelium immunology, Fungal Proteins immunology, Oligosaccharides immunology

Abstract

Monoclonal antibodies were prepared against a mixture of purified lysosomal enzymes from Dictyostelium discoideum. Three classes of antibodies were found which recognized distinct antigenic determinants on N-linked oligosaccharides of multiple proteins. The structure of the determinants was studied by competition assays using monosaccharides and oligosaccharide/glycopeptide fractions prepared from one Dictyostelium lysosomal enzyme or other sources. The results of these studies suggest that one class of antibody recognizes an epitope containing residues of Man-6-SO4, another recognizes a domain containing a modified GlcNAc, and the third class recognizes an undefined determinant that involves the oligosaccharide. The three determinants are found on multiple overlapping, but nonidentical sets of glycoproteins. The ability to produce monoclonal antibodies against unusual N-linked oligosaccharides offers a powerful tool which can be used to investigate the occurrence, structure, biosynthesis, and the biological roles of these highly immunogenic saccharides.

Published

1987

41. Maturation of asparagine-linked oligosaccharides in Dictyostelium discoideum analyzed with modification-specific probes.

Author

Judelson HS and Dimond RL

Subjects

Animals, Cell Membrane metabolism, Dictyostelium enzymology, Endoplasmic Reticulum metabolism, Glycosylation, Golgi Apparatus metabolism, Immunoassay, Lysosomes metabolism, Mammals, Mannosephosphates metabolism, Asparagine, Dictyostelium metabolism, Oligosaccharides physiology

Abstract

Lysosomal enzymes in Dictyostelium discoideum contain high mannose oligosaccharides that contain mannose 6-phosphate and several unusual structures. The synthesis and distribution of these post-translational modifications were studied using probes for different carbohydrate groups. These probes include lectin-like antibodies directed to two distinct sulfated and one nonsulfated N-linked determinants, the lectin Con A, and the mammalian 215-kDa phosphomannosyl receptor. Only Con A binds to newly synthesized alpha-mannosidase present in the rough endoplasmic reticulum. The other modifications are acquired at different rates and are first detected on protein in light density Golgi-like membranes. Mutations which prevent protein transport to Golgi membranes block synthesis of these moieties, but inhibitors which prevent later transport steps have no effect. The majority of modified proteins are in lysosomes but significant amounts are delivered to nonlysosomal destinations. Different lysosomal proteins contain unequal amounts of each modification.

Published

1988