Richardson, RA, Body, M, Warmund, MR, Schultz, JC and Appel, HM (2017) Morphometric analysis of young petiole galls on the narrow-leaf cottonwood, Populus angustifolia, by the sugarbeet root aphid, Pemphigus betae. Protoplasma. 254: 203-216. [Link] [Pdf]
Giron, D, Huguet, E, Stone, GN and Body, M (2016) Insect-induced effects on plants and possible effectors used by galling and leaf-mining insects to manipulate their host-plant. Journal of Insect Physiology – Special issue: Organisms that Manipulate Host-Plants: From Effector Molecules to Ecosystem Engineering. 84: 70-89. [Link] [Pdf]
Guiguet, A, Dubreuil, G, Harris, MO, Appel, HM, Schultz, JC, Pereira, MH and Giron, D (2016) Shared weapons of blood-and plant-feeding insects: surprising commonalities for manipulating hosts. Journal of Insect Physiology – Special issue: Organisms that Manipulate Host-Plants: From Effector Molecules to Ecosystem Engineering. 84: 4-21. [Link] [Pdf]
Nguyen, PDT, Pike, S, Wang, J, Poudel, AN, Heinz, R, Schultz, JC, Koo, AJ, Mitchum, MG, Appel, HM and Gassmann, W (2016) The Arabidopsis immune regulator SRFR1 dampens defenses against herbivory by Spodoptera exigua and parasitism by Heterodera schachtii. Molecular Plant Pathology. [Link] [Pdf]
Zhang, H, Dugé de Bernonville, T, Body, M, Glevarec, G, Reichelt, M, Unsicker, S, Bruneau, M, Renou, J-P, Huguet, E, Dubreuil, G and Giron, D (2016) Leaf-mining by Phyllonorycter blancardella reprograms the host-leaf transcriptome to modulate phytohormones associated with nutrient mobilization and plant defense. Journal of Insect Physiology – Special issue: Organisms that Manipulate Host-Plants: From Effector Molecules to Ecosystem Engineering. 84: 114-127. [Link] [Pdf]
Casas, J, Body, M, Gutzwiller, F, David, G, Lazzari, CR, Pincebourde, S, Richard, R and Lopez-Llandres, A (2015) Increasing metabolic rate despite declining body weight in an adult parasitoid wasp. Journal of Insect Physiology. 79: 27-35. [Link] [Pdf]
Dardeau, F, Body, M, Berthier, A, Miard, F, Christidès, J-P, Feinard-Duranceau, M, Giron, D, Brignolas, F, Lieutier, F and Sallé, A (2015) Effect of fertilization on amino acid mobilization by a plant-manipulating insect. Ecological Entomology. 40: 814-822. [Link] [Pdf]
Jarrige, A, Body, M, Giron, D, Greenfield, M and Goubault, M (2015) Amino acid composition of the bushcricket spermatophore and the function of courtship feeding: variable composition suggests a dynamic role of the nuptial gift. Physiology and Behavior. 151: 463-468. [Link] [Pdf]
Appel, HM, Fescemyer, H, Ehlting, J, Weston, J, Rehrig, E, Joshi, T, Xu, D, Bohlmann, J and Schultz, JC (2014a) Transcriptional responses of Arabidopsis thaliana to chewing and sucking insect herbivores. Frontiers in Plant Science 5: 565. [Link] [Pdf]
Appel, HM, MaqBool, SB, Raina, S, Jagadeeswaran, G, Acharya, BR, Hanley, JC, Miller, KP, Hearne, L, Jones, AD, Raina, R and Schultz, JC (2014b) Transcriptional and metabolic signatures of Arabidopsis responses to chewing damage by an insect herbivore and bacterial infection and the consequences of their interaction. Frontiers in Plant Science 5: 441. [Link] [Pdf]
Rehrig, EM, Appel, HM, Jones, AD and Schultz, JC (2014) Roles for jasmonate-and ethylene-induced transcription factors in the ability of Arabidopsis to respond differentially to damage caused by two insect herbivores. Frontiers in Plant Science 5: 407. [Link] [Pdf]
Ferrieri, AP, Agtuca, B, Appel, HM, Ferrieri, RA and Schultz, JC (2013) Temporal changes in allocation and partitioning of new carbon as 11C elicited by simulated herbivory suggest that roots shape aboveground responses in Arabidopsis. Plant physiology 161: 692-704. [Link] [Pdf]
Schultz, JC (2012) Chapter 7: Factoring natural enemies into plant tissue availability to herbivores. In: Mark D. Hunter, Takayuki Ohgushi, Peter W. Price (Editors) Effects of Resource Distribution on Animal Plant Interactions. 175-197. [GoogleBook]
Cha, D, Appel, H, Frost, C, Schultz, JC, Steiner, K (2010) Red oak responses to nitrogen addition depend on herbivory type, tree family, and site. Forest Ecology and Management, 259: 1930-1937. [Link] [Pdf]
Schultz, JC (2010) Reconsidering the Architecture of Research in the Public University. Sustaining and Enhancing the Research Mission of the Public Universities, Merrill Series on The Research Mission of Public Universities. Mabel L. Rice, Ed. MASC Report. The University of Kansas, Lawrence.
Havens, Timothy C., James M. Keller, Erin MacNeal Rehrig, Heidi M. Appel, Mihail Popescu, Jack C. Schultz, and James C. Bezdek. 2008. Fuzzy Cluster Analysis of Bioinformatics Data Composed of Microarray Expression Data and Gene Ontology Annotations. Proceedings of NAFIPS2008 Conference. [Link] [Pdf]
Schultz, J.C. (2008). Think Globally, Organize Systemically. Global Research Collaborations, Merrill Series on The Research Mission of Public Universities. Mabel L. Rice, Ed. MASC Report No. 112. The University of Kansas, Lawrence.
Acharya B.R., S. Raina, S.B. Maqbool, G. Jagadeeswaran, S.L. Mosher, H.M. Appel, J.C. Schultz, D.F. Klessig, R. Raina. 2007. Overexpression of CRK13, an Arabidopsis cysteine-rich receptor-like kinase, results in enhanced resistance to Pseudomonas syringae. Plant J. 50: 488-99. [Link] [Pdf]
Engelberth J, I. Seidl-Adams, J.C. Schultz, J.H. Tumlinson. 2007. Insect elicitors and exposure to green leafy volatiles differentially upregulate major octadecanoids and transcripts of 12-oxo phytodienoic acid reductases in Zea mays. Mol Plant-Microbe Interact. 20: 707-716. [Link] [Pdf]
Frost, C.J., H.M Appel, J.E. Carlson, C.M. De Moraes, M.C. Mescher, J.C. Schultz. 2007. Within-plant signalling via volatiles overcomes vascular constraints on systemic signalling and primes responses against herbivores, Ecol. Letters 10: 490-498. [Link] [Pdf]
Jagadeeswaran G., S. Raina, B. R. Acharya, S. B. Maqbool, S. L. Mosher, H. M. Appel, J. C. Schultz, D. F. Klessig and R. Raina. 2007. Arabidopsis GH3-LIKE DEFENSE GENE 1 is required for accumulation of salicylic acid, activation of defense responses and resistance to Pseudomonas syringae. Plant J. 51: 234-46. [Link] [Pdf]
Fine, P.V.A., Z. Miller, I. Mesones, S. Irazuzta, H.M. Appel, M.H.H. Stevens, I. Sääksjärvi, J.C. Schultz, and P.D. Coley. 2006. The growth-defense tradeoff and habitat specialization by plants in Amazonian forests. Ecology 87: S150-S162. [Link] [Pdf]
Mewis, I., J. Tokuhisa, J.C. Schultz, H.M. Appel, C. Ulrichs, J. Gershenzon. 2006. Gene expression and glucosinolate accumulation in Arabidopsis thaliana in response to generalist and specialist herbivores of different feeding guilds and the role of defense signaling pathways. Phytochemistry 67: 2450-2462. [Link] [Pdf]
Mewis, I, H.M. Appel, A. Hom, R. Raina and J.C. Schultz. 2005. Major signaling pathways modulate Arabidopsis thaliana (L.) glucosinolate accumulation and response to both phloem feeding and chewing insects. Plant Physiology 138:1149-1162. [Link] [Pdf]
Schultz, J.C. 2005. A new chemical ecology text. (Book Review) Ecology.
Walls, R., HM Appel , M Cipollini, and JC Schultz. 2005. Fertility, root reserves and the cost of inducible defenses in the perennial plant Solanum carolinense. J. Chem. Ecol.31 (10): 2263-2288. [Link] [Pdf]
Allison S.D. and J.C. Schultz. 2004. Differential activity of peroxidase isozymes in response to wounding, gypsy moth, and plant hormones in northern red oak (Quercus rubra L.). J. Chem. Ecology 30 (7): 1363-1379. [Link] [Pdf]
Arnold T, Appel HM, Patel V, Stocum E, Kavalier A., and Schultz JC. 2004. Carbohydrate translocation determines the phenolic content of Populus foliage: a test of the sink-source model of plant defense. New Phytol. 164 (1): 157-164. [Link] [Pdf]
Leach, J.E. et al. 2004. California Agricultural Research Priorities: Pierce’s Disease. National Research Council, Washington, DC. 161pp. [GoogleBook]
Schultz, J.C. 2002b. Biochemical ecology: How plants fight dirty. Nature 416: 267 (invited essay). [Pdf]
Cipollini, D.F., and A.M. Redman. 1999. Age-dependent effects of jasmonic acid treatment and wind exposure on foliar oxidase activity and insect resistance in tomato. J Chem. Ecol 25: 271-281. [Link] [Pdf]
Feldman, K.S., A. Sambandam, K.E. Bowers, and H.M. Appel. 1999. Probing the role of polyphenol oxidation in mediating insect-pathogen interactions. Galloyl-derived electrophilic traps for the Lymantria dispar nuclear polyhedrosis virus matrix protein polyhedrin. Journal of Organic Chemistry 64:5794-5803. [Pdf]
Schultz, J.C. and Ted Floyd. 1999. Desert Survivor. Natural History 108: 24-29.
Cipollini, D.F. 1998a. The induction of soluble peroxidase activity in leaves of bean plants by wind-induced mechanical perturbation. American Journal of Botany 85 Am J Bot 85: 1586-1591. [Link] [Pdf]
Morton, T. C. 1998. Chemotaxonomic significance of hydroxylated pipecolic acids in Central American Inga (Fabaceae: Mimosoideae: Ingeae). Biochemical Systematics and Ecology, 26 (4): 379-401. [Link] [Pdf]
Vencl, F. V., and Morton, T. C. 1998b. Did chemical change in shield defenses promote diversification of shining leaf beetles (Chrysomelidae: Criocerinae)? in Biondi, Proc. 4th Int Symp on the Chrysomelidae: 1-14. [Link] [Pdf]
Govenor, H., J.C. Schultz and H.M. Appel. 1997. Impact of dietary allelochemicals on gypsy moth (Lymantria dispar) caterpillars: Importance of midgut alkalinity. J. Insect Physiol. 12: 1169-1175. [Link] [Pdf]
Morton, T. C. 1997. Review of Applications of Modern Mass Spectrometry in Plant Science Research edited by R. P. Newton and T. J. Walton. Plant Science Bulletin 43 (4).
Feldman, K.S. , Quideau, S., and H.M. Appel. 1996. Galloyl-derived orthoquinones as reactive partners in nucleophilic additions and Diels-Alder dimerizations: a novel route to the dehydrodigalloyl linker unit of agrimoniin-type ellagitannins. Journal of Organic Chemistry 61:6656-6665. [Link] [Pdf]
Gurevitch, J., Taub, D. R., Morton, T. C., Gomez, P. L., and Wang, I.-N. 1996. Competition and genetic background in a rapid-cycling cultivar of Brassica rapa (Brassicaceae). American Journal of Botany, 83 (7), 932-938. [Link] [Pdf]
Hammerschmitt, R. and J.C. Schultz. 1996. Multiple defenses and signals in plant defense against pathogens and herbivores. Recent Adv. in Phytochemistry 30: 121-154. [Link]
Morton, T. C. 1996. Review of “Modern Methods of Plant Analysis Vol. 15: Alkaloids” edited by H. F. Linskens and J. F. Jackson. Plant Science Bulletin 42 (2), 58-59.
Floyd, T. 1995. First breeding colony of herring gulls in Pennsylvania. Pennsylvania Birds 8:34.
Hess, P.D. and T. Floyd. 1995. Neotropical migrants in Pennsylvania: evidence of absence, or absence of evidence? Pennsylvania Birds 8:201-203.
Moran, P. J., and Morton, T. C. 1995. Review of “Analysis of plant phenolic metabolites”. Ecoscience 3 (4), 418-419.
Schultz, J.C. 1995. When nature writers get it wrong. (Book review/editorial) Natural History Magazine 6/95: 45-48.
Futuyma, D. J., Walsh, J. S., Morton, T., Funk, D. J., and Keese, M. C. 1994 Genetic variation in a phylogenetic context: Responses of two leaf beetles (Coleoptera: Chrysomelidae. to host plants of their congeners. Journal of Evolutionary Biology, 7, 127-146. [Link] [Pdf]
Hunter, M.D., D.J. Biddinger, E.J. Carlini, et al. 1994a. Effects of apple leaf allelochemistry on tufted apple bud moth (Lepidoptera, Tortricidae) resistance to azinphosmethyl. J. Econ. Entomol. 87:1423-1429. [Pdf]
Hunter, M.D., L.A. Hull and J.C. Schultz. 1994b. Evaluation of resistance to tufted apple bud moth (Lepidoptera: Tortricidae) within and among apple cultivars. Environ. Entomol. 23:282-291. [Link]
Kleiner, K.W. and M.E. Montgomery. 1994. Forest stand susceptibility to the gypsy moth (Lepidoptera:Lymantriidae): species and site effects on foliage quality to larvae. Environmental Entomology 23:699-711. [Link] [Pdf]
Appel, H. M. 1993b. The insect gut lumen: physiochemistry and impact on plant allelochemicals and nutrients. Pp. 209-223 In, E.A. Bernays, ed., Insect-Plant Interactions Volume 5, CRC Press, Inc.
Rossiter, M.C., D.L. Cox-Foster, and M.A. Briggs. 1993. Initiation of maternal effects in Lymantria dispar L.: Genetic and ecological components of egg provisioning. Journal of Evolutionary Biology 6: 577-589. [Link] [Pdf]
Schultz, J.C. 1993a. Plant signals in systemic responses to herbivores. In Plant Signalling in Interactions with other Organisms, J.C. Schultz and I. Raskin, eds., Amer. Soc. Plant Physiol., Rockville, MD, pp. 93-101.
Schultz, J.C. 1993b. (Book review) Phytochemical Induction by Herbivores. J. Chem. Ecol. 19(3): 601-604. [Pdf]
Schultz, J.C. and I. Raskin, eds. 1993. Plant Signalling in Interactions with Other Organisms. Amer. Soc. Plant Physiol., Rockville, MD, 271 pp.
Appel, H.M. and J.C. Schultz. 1992. Activity of phenolics in insects: the role of oxidation. In: Plant Polyphenols: Biogenesis, Chemical Properties and Significance, P.E. Laks and R.W. Hemingway, eds., Plenum Press, pp. 609-620.
DeVeau, E.J.I. and J.C. Schultz. 1992. Reassessment of the interaction between gut detergents and tannins in Lepidoptera and significance for gypsy moth larvae. J. Chem. Ecol. 18: 1437-1453. [Link] [Pdf]
Foster, M.A., J.C. Schultz and M.D. Hunter. 1992. Modelling gypsy moth-virus-leaf chemistry interactions: implications of plant quality for pest and pathogen dynamics. J. Anim. Ecol. 61: 510-520. [Link] [Pdf]
Hunter, M.D. 1992. Interactions within herbivore communities mediated by the host plant: the keystone herbivore concept. In: The Effects of Resource Distribution on Animal-Plant Interactions (Eds. M.D. Hunter, T. Ohgushi & P.W. Price), Pp 287-325. Academic Press, San Diego.
Hunter, M.D. and P.W. Price. 1992b. Natural variability in plants and animals. In: The Effects of Resource Distribution on Animal-Plant Interactions (Eds. M.D. Hunter, T. Ohgushi & P.W. Price), Pp 1-12. Academic Press, San Diego.
Kleiner, K.W., M.D. Abrams and J.C. Schultz. 1992a. The impact or water and nutrient deficiencies on the growth, gas exchange and water relations of red oak and chestnut oak. Tree Physiol. 11: 171-287. [Link] [Pdf]
Kleiner, K.W., M.D. Abrams, and J.C. Schultz. 1992b. The impact of water and nutrient deficiencies on oak leaf quality and gypsy moth performance. Proc. 8th Int. Symp. Insect-Plant Relationships: 52-54.
Rossiter, M.C. 1992. The impact of resource variation on population quality in herbivorous insects: A critical component of population dynamics. In M.D. Hunter, T. Ohgushi and P.W. Price (eds.), Resource Distribution and Animal-Plant Interactions, Pp. 13-42. Academic Press, San Diego.
Schultz, J.C. 1992. Factoring enemy risk into resource availability to leaf-feeding herbivores. In: Resource Distribution and Plant-Animal Interactions, P. W. Price, et al., eds., Oxford Univ. Press, pp. 175-197.
Schultz, J.C., M.D. Hunter and M.A. Appel. 1992. Antimicrobial activity of polyphenols mediates plant-herbivore interactions. In: Plant Polyphenols: Biogenesis, Chemical Properties and Significance. P.E. Laks and R.W. Hemingway, eds., Plenum Press, pp. 621-637.
Nichols-Orians, C.M. 1991b. Differential effects of condensed and hydrolyzable tannin on polyphenol oxidase activity of attine symbiotic fungus. Journal of Chemical Ecology 17: 1811-1819. [Link] [Pdf]
Schultz, J.C. 1991a. The Multimillion-Dollar Gypsy Moth Question. Natural History Magazine. 6/91: 40-44.
This paper has been reprinted in “Modern and Classic Readings in Biology” and forms the basis of a reading/analytical question on the current Graduate Record Exam
Schultz, J.C. and S.T. Keating. 1991. Hostplant-mediated interactions between the gypsy moth and a baculovirus. In: Microorganisms, Plants and Herbivores, P. Barbosa, V.A. Krischik, and C.G. Jones, eds., J. Wiley, NY, pp. 325-337.
Abrams, M.D., K.W. Kleiner and J.C. Schultz. 1990. Ecophysiological responses in mesic versus xeric hardwood species during early-season drought in central Pennsylvania. For. Sci. 36: 970-991. [Pdf]
Keating, S.T., J.C. Schultz and W.G. Yendol. 1990a. The effect of diet on gypsy moth (Lymantria dispar) larval midgut pH, and its relationship with larval susceptibility to a baculovirus. J. Invert. Pathol. 56: 317-326. [Link] [Pdf]
Keating, S. T., M. D. Hunter and J. C. Schultz. 1990b. Leaf-phenolic inhibition of the gypsy moth nuclear polyhedrosis virus: The role of polyhedral inclusion body aggregation, J. Chem. Ecol. 16: 1445-1457. [Link] [Pdf]
Rossiter, M.C., W.G. Yendol, and N.R. Dubois. 1990. Resistance to Bacillus thuringiensis in the gypsy moth (Lepidoptera: Lymantriidae): Genetic and environmental causes. Journal of Economic Entomology 83(6): 2211-2218. [Link] [Pdf]
Schultz, J.C., M.A. Foster and M.E. Montgomery. 1990. Hostplant-mediated impact of pathogens on gypsy moth populations. In: Population Dynamics of Forest Insects, A. Watt and M.D. Hunter, eds., Intercept, Ltd., London, pp. 303-313.
Keating, S. T., W. C. Yendol and J. C. Schultz. 1989. Relationship between susceptibility of gypsy moth larvae (Lepidoptera: Lymantriidae) to a baculovirus and host plant foliage constituents. Environ. Entomol. 17: 952-958. [Link]
Kleiner, K.W., M.E. Montgomery and J.C. Schultz. 1989. Variation in leaf quality of two oak species: Implication for stand susceptibility to gypsy moth defoliation. Can. J. For. Sci. 19: 1445-1450. [Link] [Pdf]
Rossiter, M.C. 1989. Book Review: Epizootiology of Insect Disease. Fuxa and Tanada (eds.) Quarterly Review of Biology 64(2): 207-208.
Schultz, J.C. 1989a. Tannin-insect interactions. In The Chemistry and Significance of Condensed Tannins, R.W. Hemingway and J. Karchesy, eds. Plenum Press, NY, pp. 417-433
Baldwin, I.T., J.C. Schultz, and D. Ward. 1987. Patterns and sources of leaf tannin variation in yellow birch (Betula allegheniensis) and sugar maple (Acer saccharum). J. Chem. Ecol. 13: 1069-1079. [Link] [Pdf]
Barbosa, P. and J.C. Schultz, eds. 1987. Insect Pest Outbreaks: Ecological and Evolutionary Perspectives. Academic Press, NY.
Nothnagle, P.J. and J.C. Schultz. 1987. What is a Forest Pest? In: Insect Outbreaks: Ecological and Evolutionary Perspectives. P. Barbosa and J.C. Schultz (eds.). Academic Press, NY, pp. 59-80.
Schultz, J. C. 1987a. (Book review) Forest Insects: Principles and Practice of Population Management. Quart. Rev. Biol. 62: 328-329.
Schultz, Jack C. 1987b. (Book review) Biosynthetic Pathways. Ecology 68: 7063.
Schultz, J. C. 1986a (Book review) Jungle Lore. Bull. Ent. Soc. Amer. 32: 47-49.
Schultz, J. C. 1986b (Book review) The North American Grasshoppers, Vol. 2 Quart. Rev. Biol. 61: 113-114.
Rashid, K.A., I.T. Baldwin, J.G. Babish, J.C. Schultz, and R.O. Mumma. 1985. Mutagenicity tests with gallic and tannic acid in the Salmonella/mammalian microsome assay. J. Environ. Sci. and Health 20:153-165. [Link] [Pdf]
Baldwin, I.T. and J.C. Schultz. 1984a. Damage- and communication-induced changes in yellow birch leaf phenolics. Proc. 8th Annual For. Biol. Workshop, R. Lenner, ed. pp. 25-33, Utah State Univ. Press.
Baldwin, I.T. and J.C. Schultz. 1984b. Tannins lost from sugar maple (Acer saccharum Marsh) and yellow birch (Betula allegheniensis Britt.) leaf litter. J.Soil Biol. Biochem. 16: 421-422. [Pdf]
Schultz, J. C. 1984. The use of scientific data in Act 250 proceedings. Proc. Vermont Law School Conference on Land Use Act 250.
Schultz, J.C. and I.T. Baldwin. 1984. Changes in tree quality in response to defoliation. Proc. CANUSA Workshop on Forest Defoliator-Host Interactions: A Comparison Between Spruce Budworm and Gypsy Moth. R.L. Talerico, ed., USDA-FS, pp. 83-86, Broomall, PA. [Pdf]
Schultz, J.C. 1983a. Habitat selection and foraging tactics of caterpillars in heterogeneous trees. IN: Variable Plants and Herbivores in Natural and Managed Systems. R.F. Denno and M.S. McClure, eds. Academic Press, NY, pp. 61-90. [GoogleBook]
Schultz, J. C. 1983b. Impact of variable plant defensive chemistry on susceptibility of insects to natural enemies. IN: Plant resistance to insects. P.A. Hedin, ed. American Chemical Society, Washington. American Chemical Society Symposium Series 208: 37-54. [Link] [Pdf]
Schultz, J. C. 1983c Tree tactics. Natural History 5/83, Amer. Mus. Nat. Hist., NY.
Schultz, J. C. 1982 The North American Grasshoppers, Vol. I (Book Review), Bull. Entomol. Soc. Amer. 29: 375-376.
Schultz, J.C. and I.T. Baldwin. 1982. Oak leaf quality declines in response to defoliation by gypsy moth larvae. Science 217: 149-151. [Link] [Pdf]
This is the 7th most-frequently cited paper on plants and herbivores, according to the Institute for Scientific Information
Szpara, M.L.T., B.A. McPheron, and J.C. Schultz. 1998. AAC99434 beta-fructofuranosidase; fructosidase; invertase [Hamamelis virginiana] gi|4092524|gb|AAC99434.1| [Link]
Szpara, M.L.T., B.A. McPheron, and J.C. Schultz. 1998. AAC99433 beta-fructofuranosidase; fructosidase; invertase [Hamamelis virginiana] gi|4092522|gb|AAC99433.1| [Link]
Szpara, M.L.T., B.A. McPheron, and J.C. Schultz. 1998. AAC99432 beta-fructofuranosidase; fructosidase; invertase [Hamamelis virginiana] gi|4092520|gb|AAC99432.1| [Link]
Szpara, M.L.T., B.A. McPheron, and J.C. Schultz. 1998. AAC99431 beta-fructofuranosidase; fructosidase; invertase [Hamamelis virginiana] gi|4092518|gb|AAC99431.1| [Link]
Szpara, M.L.T., B.A. McPheron, and J.C. Schultz. 1998. AAC99430 beta-fructofuranosidase; fructosidase; invertase [Hamamelis virginiana] gi|4092516|gb|AAC99430.1| [Link]
Szpara, M.L.T., B.A. McPheron, and J.C. Schultz. 1998. AAC99429 beta-fructofuranosidase; fructosidase; invertase [Hamamelis virginiana] gi|4092514|gb|AAC99429.1| [Link]
Szpara, M.L.T., B.A. McPheron, and J.C. Schultz. 1998. AAC99428 beta-fructofuranosidase; fructosidase; invertase [Hamamelis virginiana] gi|4092512|gb|AAC99428.1| [Link]