From owner-grasses@net.bio.net Tue Nov 01 22:00:00 1994 Newsgroups: bionet.biology.grasses,bionet.jobs.wanted,sci.research.postdoc Path: biosci!rutgers!uwm.edu!lll-winken.llnl.gov!enews.sgi.com!decwrl!tribune.usask.ca!quartz.ucs.ualberta.ca!news.ucalgary.ca!rjnemery From: rjnemery@acs.ucalgary.ca (Robert Joseph Neil Emery) Subject: Postdoc position available Message-ID: Date: Wed, 2 Nov 1994 23:10:36 GMT Organization: The University of Calgary Lines: 23 Xref: biosci bionet.biology.grasses:145 bionet.jobs.wanted:365 sci.research.postdoc:1772 POSTDOCTORAL FELLOW in PLANT PHYSIOLOGY, UNIVERSITY OF CALGARY, CANADA. A PDF position is available December 1994, to work on an investigation on the physiology and biochemistry of jasmonic acid and jasmonic acid analogues. Applicants must have a good background in plant hormone physiology, be knowledgeable with techniques such as GC and HPLC. It would be useful to have some experience with GC-MS. Skiing skills useful as Banff is nearby! Applicant must be able to work well with others, as this work is being carried out in cooperation with a plant molecular biologist (Dr M.M. Moloney) and a chemist (Dr. S. Abrams). The position is definitely for one, and likely for two, years in duration. Salary $25,000.00. Send applications, with names and phone numbers of 3 referees, to: Dr. David M. Reid Plant Physiology Research Group Dept. of Biological Sciences University of Calgary Calgary, Alberta, CANADA T2N 1N4 or E-MAIL: dmreid@acs.ucalgary.ca or FAX: (403) 289-9311 From owner-grasses@net.bio.net Mon Nov 07 22:00:00 1994 Path: biosci!bcm!cs.utexas.edu!howland.reston.ans.net!ix.netcom.com!netnews From: gbell@ix.netcom.com (Gary Bell) Newsgroups: bionet.biology.grasses Subject: Re: Smooth Brome Control in Native Grasslands Date: 8 Nov 1994 00:47:58 GMT Organization: Netcom Lines: 37 Distribution: world Message-ID: <39mhru$m2q@ixnews1.ix.netcom.com> References: NNTP-Posting-Host: ix-sf5-22.ix.netcom.com In reichart@cuug.ab.ca (Reichart) writes: >They are researching methods of restoring native >grasslands in Calgary. One of the most prolific weed species is Smooth >brome, Bromus inermus. Any suggestions on how to faciliate replacing >this weed with something more desirable? Or inhibiting its dispersal into >newly reclaimed areas? Hugh would be interested in hearing from anyone >with success or almost success. Thanks in advance. > I don't know much about B. inermus but I gather that B. i. inermus is native to Europe while B. i. pumpellianus is native to the Rockies. I assume you're talking about the former. The best approach is to look at the natural dynamics of the native vs the introduced grass and look for disturbance regimes that will lend the competitive edge to the natives, since you will probably never eradicate a successful weed grass. In California bunchgrass prairie where European annual bromes and barleys are the main problems, spring prescribed fire can be extremely effective at destroying the seed set of the annuals which do not form multi-year seedbanks in the soil. As a result a single fire event at the right time can set back the exotics 5-10 years. In Alberta where you're probably managing a rhizomatous grassland (?) and you're dealing with a perennial weed this might not work. But perhaps a combination of carefully timed fire and grazing (use bison, not those range slugs or wooly maggots!) might give you, or the natives, the edge you're looking for. Good luck, Cheers, -- ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ Gary "Quis dolor cui dolium?" ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ From owner-grasses@net.bio.net Mon Nov 07 22:00:00 1994 Path: biosci!SOILWATER.AGR.OKSTATE.EDU!acg From: acg@SOILWATER.AGR.OKSTATE.EDU ("acg@soilwater.agr.okstate.edu ", Arron C. Guenzi) Newsgroups: bionet.biology.grasses Subject: Program for 20th Wheat Workers Conference Date: 8 Nov 1994 08:11:41 -0800 Organization: BIOSCI International Newsgroups for Molecular Biology Lines: 176 Sender: daemon@net.bio.net Distribution: world Message-ID: <9411081002.AA44852@vernon> NNTP-Posting-Host: net.bio.net --part_AAE4FD4400016A9900000002 Content-Type: Text/Plain; charset=US-ASCII Content-Disposition: Inline 20th HARD RED WINTER WHEAT WORKERS CONFERENCE January 25 - 27, 1995 LOCATION: Embassy Suites 1815 South Meridian Oklahoma City, OK,73108 telephone: 405-682-6000 - for special conference room rates ($72 per night, single or double), mention "Wheat Workers Conference." Reservatons must be made before January 3, 1995 for reduced rates. REGISTRATION: $65 prior to January 1, 1995 $75 after January 1, 1995 or on-site. Mail registration fee, in the form of a check or money order made out to "Oklahoma State University," your name, mailing address, telephone number, e-mail address, and title of volunteered poster presentation to: Ms. Michelle Kuehn 20th HRWW Conference Department of Agronomy, 369 Ag Hall Oklahoma State University Stillwater, OK 74078-0507 FAX: 405-744-5269 FOR FURTHER INFORMATION CONTACT: Arron Guenzi, Oklahoma State University Telephone: 405-744-5532 FAX: 405-744-6039 E-mail: acg@soilwater.agr.okstate.edu Brett Carver, Oklahoma State University Telephone: 405-744-9580 FAX: 405-744-5269 E-mail: bfc@soilwater.agr.okstate.edu David Porter, USDA-ARS, Stillwater, OK Telephone: 405-624-4212 FAX: 405-372-1398 E-mail: PORTDRP@vms.ucc.okstate.edu PROGRAM Tuesday, 1-24-95, 3:00 pm to 7:00 pm - Registration - Lobby of Embassy Suites Wednesday, 1-25-95, 8:30 am to 5:00 pm Wheat Breeding Methodologies, Dave Worrall, Texas A & M, Chair - S. Rajaram, CIMMYT, "International Perspective" - John Moffatt, AgriPro Seeds, "Private Sector Perspective" - Rollie Sears, Kansas State Univ., "Public Sector Perspective" Future of Wheat Breeding, David Worrall, Texas A & M, Chair - Ed Hiller, Texas A & M Univ., "Changing Times" - Ed Smith, Oklahoma State Univ., "Wheat Breeding and the Land Grant Mission" Conference Lunch - Art Klatt, Oklahoma State University, "Future funding opportunities for international development" Gene Deployment, Stan Cox, USDA-ARS, Manhattan, KS, Chair - Bikram Gill, Kansas State Univ., "Recent progress on molecular mapping of disease and insect resistance genes in wheat" - Panel Discussion - "How can we slow evolution of new, more virulent leaf rust races?" - Dave Marshall, Texas A&M, Dallas - Steve Baenziger, Univ. of Nebraska - Bob Bowden, Kansas State Univ. - Discussion of possibilities for regional action Germplasm Enhancement, David Porter, USDA-ARS, Stillwater, OK, Chair - Jim Quick, Colorado State Univ., "Impact of breeding and genetics on reducing RWA damage in the Western United States" - Bob Graybosch, USDA-ARS, Lincoln, NE "Germplasm development for enhanced end-use quality" - Olin Anderson, USDA-ARS, Albany, CA "Status of wheat database" - Tom Harvey, Kansas State Univ., "Adaptation of the wheat curl mite to resistance in wheat" Thursday, 1-26-95, 8:30 to 5:00 pm Volunteered Poster Session, Bob Hunger, Oklahoma State Univ., Chair Impact of Changing Management Practices Gene Krenzer, Oklahoma State Univ., Chair - Don Oswald, Wheat producer, Apache, OK, "Variety selection: A producer's perspective" - Gene Krenzer, Oklahoma State Univ., "Management practices and net returns in a wheat-stocker cattle enterprise" - Bill Bockus, Kansas State Univ., "Possible effects of management practices associated with sustainable agriculture on diseases" Transgenic Wheat, Arron Guenzi, Oklahoma State Univ., Chair - Joyce Fry, Monsanto, "From transformation to commercial wheat products" - Troy Weeks, USDA-ARS, Albany, CA, "Genetic engineering of wheat for drought resistance" - Olin Anderson, USDA-ARS, Albany, CA "Using transgenic wheat to explore protein contributions to bread making quality" Conference Lunch Regulatory Issues, Rollie Sears, Kansas State Univ., Chair Regional & NWIC Business Meeting - Rob Bruns, AgriPro Seeds & Jim Peterson, USDA-ARS, Lincoln, NE Friday, 1-27-95, 8:30 to Noon Hard White Wheat, Brett Carver, Oklahoma State University, Chair - Cal Qualset, Univ. California-Davis, "Introducing Hard White Wheat: Challenges to Plant Breeders, Agronomists, and Growers" - Glen Weaver, ConAgra, "Marketing Hard White Wheat - Domestic Issues" - John Weaver, U.S. Wheat Associates, "Marketing Hard White Wheat - International Issues" - Joe Martin, Kansas State Univ., "Improvement of Kernel Color and Pre-Harvest Sprouting Tolerance in Hard White Winter Wheat" - Dave Shelton, Univ. of Nebraska, "End-Use Quality Testing during Hard White Wheat Variety Development" --part_AAE4FD4400016A9900000002 Content-Type: Text/Plain; charset=US-ASCII Content-Disposition: Inline Arron C. Guenzi Telephone: 405-744-5532 Department of Agronomy FAX: 405-744-6039 369 Agriculture Hall Internet: Oklahoma State University acg@soilwater.agr.okstate.edu Stillwater, OK 74078-0507 U.S.A. --part_AAE4FD4400016A9900000002-- From owner-grasses@net.bio.net Thu Nov 10 22:00:00 1994 Path: biosci!agate!howland.reston.ans.net!pipex!lyra.csx.cam.ac.uk!mole.bio.cam.ac.uk!jat From: jat@mole.bio.cam.ac.uk (Jutta Tuerck (Genetics)) Newsgroups: bionet.biology.grasses Subject: maize mutant Date: 11 Nov 1994 12:20:28 GMT Organization: University of Cambridge, England Lines: 9 Message-ID: <39vnic$39s@lyra.csx.cam.ac.uk> NNTP-Posting-Host: mole.bio.cam.ac.uk Keywords: maize starch glt1 n Can anyone give me any information about the glt locus in maize? The glt-1 mutant apparently has altered starch but other than that I know very little. It was discovered at the Univ. Wisconsin I think. Thanks very much for your help. From owner-grasses@net.bio.net Thu Nov 10 22:00:00 1994 Path: biosci!TEOSINTE.AGRON.MISSOURI.EDU!maryp From: maryp@TEOSINTE.AGRON.MISSOURI.EDU (Mary Polacco) Newsgroups: bionet.biology.grasses Subject: Re: maize mutant Date: 11 Nov 1994 07:12:09 -0800 Organization: BIOSCI International Newsgroups for Molecular Biology Lines: 12 Sender: daemon@net.bio.net Distribution: world Message-ID: <9411111507.AA23135@teosinte.agron.missouri.edu.agron.missouri.edu> NNTP-Posting-Host: net.bio.net Hi Jutta, Just looked at the MaizeDB (which you may have also) and also did a text-search on 'zealand', 1980-90 and found no reference to glt - suggest you write directly to Dr. Oliver Nelson nelsonoe@macc.wisc.edu or to Dr. Tom Sullivan, Laboratory of Genetics, 445 Henry Mall, University of Wisconsin, Madison, WI 53706. Both are at U WI and work with starch synthesis mutants. -Mary maryp@teosinte.agron.missouri.edu From owner-grasses@net.bio.net Thu Nov 10 22:00:00 1994 Path: biosci!news.Stanford.EDU!agate!howland.reston.ans.net!vixen.cso.uiuc.edu!ux1.cso.uiuc.edu!pstinard From: pstinard@ux1.cso.uiuc.edu (Nutria ) Newsgroups: bionet.biology.grasses Subject: Re: maize mutant Date: 11 Nov 1994 14:16:44 GMT Organization: University of Illinois at Urbana Lines: 20 Message-ID: <39vucc$arh@vixen.cso.uiuc.edu> References: <39vnic$39s@lyra.csx.cam.ac.uk> NNTP-Posting-Host: ux1.cso.uiuc.edu Keywords: maize starch glt1 jat@mole.bio.cam.ac.uk (Jutta Tuerck (Genetics)) writes: >n > Can anyone give me any information about the glt locus in > maize? The glt-1 mutant apparently has altered starch but > other than that I know very little. It was discovered at the > Univ. Wisconsin I think. > Thanks very much for your help. Dear Jutta, As far as I know, there is no mutant called glt1. (At least it is not in the Maize Database yet.) Could you tell us what else you know about this mutant? --Phil Stinard From owner-grasses@net.bio.net Fri Nov 11 22:00:00 1994 Path: biosci!NSF.GOV!jwcross From: jwcross@NSF.GOV Newsgroups: bionet.biology.grasses Subject: Re: Random cDNA index Date: 12 Nov 1994 05:09:02 -0800 Organization: BIOSCI International Newsgroups for Molecular Biology Lines: 10 Sender: daemon@net.bio.net Distribution: world Message-ID: <9410127846.AA784656476@xrelay.nsf.gov> NNTP-Posting-Host: net.bio.net I'd appreciate it if you would please refrain from sending me and the several plant discussion groups long lists of DNA clones. I often get several copies of these. Instead, why don't you send a message saying that the lists are available and request a message be sent to you from the people who actually want a copy of your clone lists? Sincerely, John From owner-grasses@net.bio.net Sat Nov 12 22:00:00 1994 Newsgroups: bionet.biology.grasses Path: biosci!bloom-beacon.mit.edu!usc!howland.reston.ans.net!pipex!uunet!panix!zip.eecs.umich.edu!umn.edu!news From: "Mark Galatowitsch" Subject: Re: Plant Tissue Culture Listserv Message-ID: <90295.galat002@maroon.tc.umn.edu> X-Minuet-Version: Minuet1.0_Beta_17A Sender: news@news.cis.umn.edu (Usenet News Administration) Nntp-Posting-Host: dialup-2-93.gw.umn.edu X-Popmail-Charset: IBM 8-Bit Organization: University of Minnesota, Twin Cities Date: Sun, 13 Nov 1994 04:27:59 GMT Lines: 25 I would like to announce a new Internet discussion list that went online Nov. 1 1994. The listserv PLANT_TC is an international forum for discussing scientific, educational, organizational and other aspects related to PLANT TISSUE CULTURE (physiology, pathology, micropropagation, secondary products, transformation, developmental biology, etc). This is a forum in which people can ask questions of the group and get responses (e.g. "Does anyone know of any technique to prevent precipatation in MS liquid media?"). Additionally, announcements or suggestions for upcoming meetings can be placed on the system. To subscribe send mail to: listserv@vm1.spcs.umn.edu. (make sure it's vm1 (one) not l (the letter)) Don't put any text in the subject area. Your message sould just be: sub plant-tc YOUR NAME That's it. No need to add an e-mail address as the listserv picks that up automatically. You should then get notification that you have subscribed and information from the U of MN listserv postmaster on how to send messages to the PLANT-TC list for distribution to all its' members. Please feel free to forward this message to any of your interested colleagues. Mark Galatowitsch, PLANT-TC list coordinator From owner-grasses@net.bio.net Sat Nov 12 22:00:00 1994 Path: biosci!bloom-beacon.mit.edu!usc!howland.reston.ans.net!cs.utexas.edu!swrinde!pipex!uunet!newstf01.news.aol.com!newsbf01.news.aol.com!not-for-mail From: cbanas7963@aol.com (CBanas7963) Newsgroups: bionet.biology.grasses Subject: Re: questionC 4, C 3 grasses, Cool season, Warm Season Date: 13 Nov 1994 00:35:29 -0500 Organization: America Online, Inc. (1-800-827-6364) Lines: 7 Sender: news@newsbf01.news.aol.com Message-ID: <3a48j1$spf@newsbf01.news.aol.com> References: <38uq30$reh@newsbf01.news.aol.com> NNTP-Posting-Host: newsbf01.news.aol.com In article <38uq30$reh@newsbf01.news.aol.com>, danerson@aol.com (Danerson) writes: The main difference between the two grasses is the ability for the C4 plant to avoid photorespiration. This is a situation where oxygen is fixed. This happens when the temperatures are too high in C3 plants. That is why C4 plants grow better in warmer conditions and C3 in cooler. From owner-grasses@net.bio.net Sun Nov 13 22:00:00 1994 Path: biosci!VTVM1.CC.VT.EDU!ESEN From: ESEN@VTVM1.CC.VT.EDU ("Dr. Asim Esen") Newsgroups: bionet.biology.grasses Subject: Postdoctoral Position Date: 14 Nov 1994 06:19:21 -0800 Organization: BIOSCI International Newsgroups for Molecular Biology Lines: 16 Sender: daemon@net.bio.net Distribution: world Message-ID: <199411141419.GAA14030@net.bio.net> NNTP-Posting-Host: net.bio.net POSTDOCTORAL POSITION at Virginia Polytechnic Institute and State University, Blacksburg, Virginia. A postdoctoral research position is available immediately. The position is funded for 12 months at $23,000 with possibility of renewal. The person selected will be involved in a project focusing on the cloning, characterization and temporal and spatial regulation of maize beta-glucosidase gene(s). Applicants should have experience in cDNA cloning and genomic library construction and screening, DNA sequencing, in vitro translation and transcription, blotting, PCR, and related molecular biology techniques. Interested individuals should contact Dr.Asim Esen, Department of Biology, Virginia Polytechnic Institute and State University, Blacksburg, Virginia 24061-0406; telephone 703-231-5894; fax 703-231-9307. From owner-grasses@net.bio.net Sun Nov 13 22:00:00 1994 Path: biosci!UCDAVIS.EDU!rajorgensen From: rajorgensen@UCDAVIS.EDU (Rich Jorgensen) Newsgroups: bionet.biology.grasses Subject: 1995 Gordon Research Conference Date: 14 Nov 1994 12:01:01 -0800 Organization: BIOSCI International Newsgroups for Molecular Biology Lines: 104 Sender: daemon@net.bio.net Distribution: world Message-ID: <199411142001.MAA06353@bullwinkle.ucdavis.edu> NNTP-Posting-Host: net.bio.net 1995 Gordon Research Conference on PLANT CELL GENETICS AND DEVELOPMENT Emphasis on: APICAL MERISTEMS AND PRIMORDIA June 11-16, 1995; Wolfeboro, New Hampshire Chair: Rich Jorgensen; Vice-chair: Joachim Messing Monday AM EMBRYO PATTERNING; SHOOT & LEAF PRIMORDIA Discussion Leader: Ian Sussex Gerd Jurgens embryonic pattern formation genes Sarah Hake maize: knotted1 and homologues; abphyll Kathy Barton SHOOT MERISTEMLESS locus in Arabidopsis Steve Clark CLAVATA loci: regulators of meristem development Monday PM MERISTEM DIVERSITY and EVOLUTION Discussion Leader: Ian Sussex Richard Litz gymnosperms and angiosperms: somatic embryogenesis Judy Jernstedt lower vascular plants: angle shoot and rhizophore Michael Christianson bryophyte meristems: origins of plant meristems Linda Graham charophycean algae: origins of plant meristems Tuesday AM ROOT APICES Discussion Leader: Lew Feldman Peter Barlow nature, organization and origins of root meristem Ben Scheres root meristem programming; cell ablation experiments Nancy Kerk quiescent center Martha Hawes root cap meristem Tuesday PM METHODS IN CELL GENETICS Discussion Leader: Joachim Messing Eric Lam homologous recombination Rob Martienssen transposons: tagging, knock-outs, traps Caroline Dean map-based cloning; flowering genes (FCA) Wednesday AM INDUCTION OF FLOWERING Discussion Leader: Erin Irish Scott Poethig phase change in maize and Arabidopsis Maarten Koornneef genetic analysis of flowering time George Coupland control of flowering time by CONSTANS Rick Amasino control of flowering time by LD and FLC Wednesday PM HERITABLE EPIGENETIC STATES Discussion Leader: Rob Martienssen Joachim Messing developmental imprinting Vicki Chandler paramutation Rich Jorgensen meristem-determined imprints Thursday AM EVOLUTION OF REPRODUCTIVE MORPHOLOGY Discussion Leader: Michael Christianson Thomas N Taylor palaeobotany of flower origins and evolution Mike Frohlich homeotic genes in the origin and evolution of flowers John Doebley evolution of maize inflorescences Charles S Gasser development and evolution of ovule morphologies Thursday PM SPECIAL LECTURE Discussion Leader: Joachim Messing to be determined animal developmental genetics Friday AM REPRODUCTIVE MORPHOLOGY Discussion Leader: Charles Gasser Detlef Weigel control of meristem identity by LEAFY Gerco Angenent petunia floral homoeotic genes Erin Irish maize inflorescences Application forms will be in February 3, 1995, issue of SCIENCE or available now from: Gordon Research Conferences, Univ. of Rhode Island, PO Box 984, West Kingston, RI 02892-0984 USA Apply early. Attendance limited to 135 participants. Priority goes to active participants in the field who apply early (by early March) AND submit a poster abstract. Send poster abstract with application to GRC office, and e-mail a copy to: "Messing, Joachim" AND rajorgensen@ucdavis.edu (Rich Jorgensen). For persons wishing to attend the ARABIDOPSIS meeting in Madison, arrangements will be made to get you to New Hampshire on Sunday evening, June 11. This will require a specially scheduled late van(s) from Logan Airport. Please notify me if you wish to use this option so I can get a rough head count. Accepted participants will receive instructions with registration materials in the spring. (If any of you wish to rent a car in Boston or fly to Manchester and rent a car there, I can keep a list of potential car-poolers and distribute it by e-mail.) Some funds are available to help with expenses of developing scientists. Apply directly to chair (by e-mail please). In case you are wondering, "Plant Cell Genetics and Development" replaces the former "Plant Cell and Tissue Culture" conference. It will be held in odd-numbered years; Plant Molecular Biology (formerly an annual meeting) will be held only in even-numbered years, by decision of GRC Board (the trend now is for annual meetings to become biennial meetings in order to make room for other topics). From owner-grasses@net.bio.net Sun Nov 13 22:00:00 1994 Path: biosci!TEOSINTE.AGRON.MISSOURI.EDU!maryp From: maryp@TEOSINTE.AGRON.MISSOURI.EDU (Mary Polacco) Newsgroups: bionet.biology.grasses Subject: Maize random cDNA index on WWW Date: 14 Nov 1994 10:01:08 -0800 Organization: BIOSCI International Newsgroups for Molecular Biology Lines: 1032 Sender: daemon@net.bio.net Distribution: world Message-ID: <9411141753.AA02521@teosinte.agron.missouri.edu.agron.missouri.edu> NNTP-Posting-Host: net.bio.net ANNOUNCING: Browsers on World Wide Web may now access an interactive index of the random cDNA sequences at the MaizeDB - these are listed on the opening page of the database at URL(the WWW address): http://teosinte.agron.missouri.edu/top.html The list of clones and putative gene products is current with the dbEST records. Gene Product names not yet hypertext are the AuthorMatch field imported from dbEST and not yet 'mapped' to a MaizeDB Gene Product record. Gene Products listed as 'zzz' may or may not have sequence similarity to known sequences. Look for updates in the near future. Additionally, all maize genes, where a sequence accession has been pasted/typed in, now have WWW access to the GenoBase server. Sequences of greater than 4000 nucleotides generally time-out and won't give similarity results. NO WWW ACCESS? connect to MaizeDB by telnet: host= teosinte.agron.missouri.edu user= guest password= corncob And choose the LYNX WWW browser (vt100) option. The Random cDNA list, as it appears today on our WWW server: ==================================================== X-Url: http://teosinte.agron.missouri.edu/ProbeGP.html Content-Length: 33077 Random cDNA Index 09 NOV 1994 In the below table, clicking on the CLONE retrieves the current interactive (hypertext) record which includes availability, insert size, probed sites, and access to sequences and homologies. Blast-search records may be retrieved by clicking on the DBEST accession key (see CLONE record). Current blast-search results may be obtained by clicking on the GenoBase accession Key (see CLONE record). Please note that GenoBase records are several months behind the dbEST submissions. Blast-searches may be performed at NCBI using either e-mail, 'formless' or forms. Clicking on PUTATIVE GENE PRODUCTS retrieves information on other genes that (may) encode the product; enyzme EC# are interactive with SwissProt and OMIM. Non-hypertext names have not yet been connected to a 'canonical' database object, and are imported directly from dbEST or other sources. To execute 'incredibly' complex queries on the database, for example "Which clones detect genes with leaf phenotypes?", please request a password for login to the Sybase forms. Comments and help requests are fielded by form or e-mail to db_request@teosinte.agron.missouri.edu. Clone Putative Gene Product p-5C02A02 15 kDa zein(beta zein) p-6C02H01 17kd protein of oxygen evolving complex p-5C02D11 18 kDa heat shock protein, plastid p-6C02C11 25S ribosomal RNA p-5C03E11 60S ribosomal protein L13A p-5C03G09 60S ribosomal protein L13A p-5C01F05 ABC1 gene of yeast p-5C06A01 ABC1 gene of yeast p-5C04E06 Ac transposase p-5C04E06 Ac transposase p-5C04G04 Ac transposase p-6C02F11 actin p-2C01F03 adenine nucleotide translocase p-5C04A11 adenine nucleotide translocase p-5C04H06 ADP glucose pyrophosphorylase p-6C02A09 alpha-ketoglutarate dehydrogenase p-csuh190 auxin-induced protein p-5C01C02 beta-glucosidase p-5C04G11 calcium dependent protein kinase p-csuh148 calnexin p-5C01B09 cell cycle protein p-csuh27 cell cycle protein CDC10 p-csuh183 cell cycle protein cdc48 p-csuh63 chaperone DNA J p-6C02E06 chaperonin 10 p-5C05H02 chaperonin, mitochondrial cytochrome b p-5C04C09 chitin synthase p-csuh159 chloroplast membrane targeting protein p-5C02D08 Clp ATP-dependent protease, chloroplast p-csuh19 cold-regulated protein p-csuh25 cytochrome P450 p-5C04C04 elongation factor 1-gamma p-6C02E11 elongation initiation factor 2, gamma subunit p-csuh154 elongation initiation factor 5 p-csuh175 elongation initiation factor 5 p-csuh110 ets-family transcription factor p-csuh74 ferredoxin p-5C04G05 GAP associated tyrosine phosphoprotein p-5C05C12 GAP associated tyrosine phosphoprotein p-csuh40 glutaredoxin p-5C01H01 glyceraldehyde 3-phosphate dehydrogenase p-5C04C07 glycoprotein p-5C04D09 glycoprotein p-5C04F07 glycoprotein p-csuh184 glycoprotein p-csuh6 guanylyltransferase p-5C04H04 heat shock protein, 70kDa p-csuh13 histone 1 p-5C03H09 histone 3 p-5C05G11 HSP20, class I p-csuh103 hupm/hypb protein p-6C02E12 lipoxygenase p-6C02F07 lipoxygenase L-2 p-5C02B05 lysr transcription factor p-csuh198 malate dehydrogenase p-5C04B07 membrane permease p-5C05A03 membrane permease p-csuh177 membrane permease p-csuh169 metallothionein p-csuh206 metallothionein p-csuh194 methionine synthase p-csuh21 microtubule calmodulin binding protein p-csuh196 monodehydroascorbate reductase (NADH) p-5C04C08 myb protein p-csuh171 NADH ubiquinone oxidoreductase, 20.8 kDa chain precursor p-2C06G06 NF-YB, CCAAT-box binding protein subunit B p-csuh10 nuclear envelope protein p-5C05G10 nuclear phosphoprotein, C-FOS, homolog p-2C01C07 oligopeptidase p-5C02F05 organellar permease p-5C02H10 organellar permease p-csuh138 P-glycoprotein p-csuh138 P-glycoprotein p-csuh133 pathogenesis-related protein p-5C01C04 peptidyl-prolyl cis-trans isomerase p-5C02G02 peptidyl-prolyl cis-trans isomerase p-6C02D10 peroxidase p-csuh145 phosphoenolpyruvate carboxykinase p-5C02A01 phospholipid transfer protein p-5C02A05 proteasome (endopeptidase) component C9 p-5C04B06 protein phosphatase p-5C04E05 putidaredoxin reductase p-csuh188 pyridoxal-phosphate-dependent aminotransferase p-5C01C10 pyruvate, orthophosphate dikinase p-5C02D01 ribosomal protein 27A p-6C02G02 ribosomal protein L1 p-5C01D03 ribosomal protein L10e p-5C04B03 ribosomal protein L19 p-csuh191 ribosomal protein S2, mitochondrial p-5C04F01 ribosome-inactivating protein p-5C03C09 root meristem protein p-5C04A12 root meristem protein p-5C01E09 S-adenosylmethionine--8-amino-7-oxononanoate transaminase p-5C01G10 salt stress protein p-csuh166 secretory protein p-5C04C05 serine/threonine protein phosphatase p-csuh149 short chain alcohol dehydrogenase p-2C07F04 signal recognition particle receptor, alpha subunit p-csuh129 sodium channel inhibitor p-csuh129 sodium channel inhibitor p-5C04B10 starch synthase p-5C04A08 subtilisin-chymotrypsin inhibitor p-csuh142 sugar transport protein p-5C01A07 TAT binding protein p-csuh189 threonine synthase p-5C02A04 tissue polarity protein p-csuh9 transcription factor p-5C02B04 transcription factor p-5C04B08 transcription factor p-5C04B08 transcription factor p-5C04C02 transcription factor p-5C04D07 transcription factor p-5C04D07 transcription factor p-csuh137 transcription factor, flowering p-csuh137 transcription factor, flowering p-5C02A07 tyr-ser-thr protein kinase p-csuh48 unidentified arabidopsis EST p-csuh48 unidentified arabidopsis EST p-csuh95 unidentified rice EST p-csuh59 unidentified rice EST p-5C04E10 UTP-- glucose-1-phosphate uridyltransferase p-5C04E10 UTP-- glucose-1-phosphate uridyltransferase p-5C04E10 UTP-- glucose-1-phosphate uridyltransferase p-5C04H05 UTP-- glucose-1-phosphate uridyltransferase p-5C04H05 UTP-- glucose-1-phosphate uridyltransferase p-5C01C06 vegetative-specific protein p-5C05F05 1/4-alpha-glucan branching enzyme (SBE1) p-5C05D05 10kd delta zein p-5C07F10 10kd delta zein p-5C08B04 14-3-3 homolog p-5C07A05 14-3-3 protein homologue p-2C02D02 15-kDa zein (beta zein) p-2C06C04 15-kDa zein (beta zein) p-5C04E12 16kd beta zein protein p-5C04H02 17.5 KD ClassII Heat shock protein p-5C04H02 17.5 KD ClassII Heat shock protein p-5C04F02 18 kDa heat shock protein, cytoplasmic p-5C04F02 18 kDa heat shock protein, cytoplasmic p-2C07A07 19 kd zein p-2C01B05 19KD alpha zein p-2C01B05 19KD alpha zein p-2C01B06 19KD alpha zein p-5C04H01 19kd zein alpha precursor p-5C04H01 19kd zein alpha precursor p-5C10G06 2- oxyglutarate dehydrogenase p-5C06C08 2-oxoglutarate dehydrogenase E1 component p-5C06D11 2-oxoglutarate dehydrogenase E1 component p-5C03E12 2-oxoglutartate dehydrogenase p-5C11C04 22 KDa zein protein p-6C01E02 25S ribosomal RNA p-6C01G06 25S ribosomal RNA p-2C01H08 3-oxoacyl-[acyl-carrier protein] reductase precursor p-5C01H07 40s ribosomal protein S14 p-2C01G06 40S ribosomal protein S21, cytoplasmic p-5C01E10 40s ribosomal protein S24 (S19) p-5C01A05 40S ribosomal protein S28, cytoplasmic p-5C04G09 40s ribosomal protein S8 p-5C04G09 40s ribosomal protein S8 p-5C01A09 40S ribosomal protein S8, cytoplasmic p-5C05D03 60s acidic ribosomal protein P2 p-5C05D11 60s ribosomal L12 p-5C05G01 60s ribosomal protein L17 p-5C04G01 60S ribosomal protein L19 p-5C04G01 60S ribosomal protein L19 p-5C08E07 70kd heat shock protein p-5C07B01 82kd heat shock protein p-5C05E12 ABA stress ripening protein homology p-5C02G05 abscisic acid-inducibile gylcine-rich protein p-5C06H10 AC9 transposase homology p-5C01F07 acidic ribosomal protein P0 homol p-5C01H05 acidic ribosomal protein P0 homolog p-5C01H03 actin p-5C08E04 actin 97 p-5C10C03 acyl-CoA binding protein p-5C09A06 acylamino acid-releasing protein similarity p-5C11D08 adenylate kinase p-5C07B08 ADP-glucose pyrophosphorylase p-5C07G11 alanine aminotransferase p-5C07H03 alcohol dehydrogenase 1 p-5C08C04 alcohol dehydrogenase 1 p-5C11D06 alcohol dehydrogenase 1 p-6C01F07 alpha tubulin p-6C02D05 alpha tubulin p-6C03A07 alpha tubulin p-csuh272 alpha tubulin p-5C06F03 alpha zein 19kd 19D1 p-5C06G10 annexin p-5C10H08 anthranilate synthase p-5C09H06 aspartate transaminase p-5C09C01 aspartyl tRNA synthetase p-5C09C07 aspartyl tRNA synthetase p-5C01B12 aspartyl-tRNA synthetase, alpha-2 subunit p-5C04E07 ATP synthase beta chain, mitochondrial p-5C04E07 ATP synthase beta chain, mitochondrial p-5C11D07 b-32 protein - maize p-5C07A12 b-32 protein, ribosome inactivating protein p-5C09D11 b32 protein p-5C09C12 barley temperature regulated gene p-6C04B04 beta glucosidase p-5C02A03 beta zein protein p-6C06C10 beta-glucosidase p-6C06A03 C. elegans ORF- L14745 p-5C05F12 CAAT-box binding protein p-5C05G04 CAAT-box binding protein p-5C06B02 CAAT-box binding protein p-5C07B02 caldium dependent protein kinase p-5C06B08 caltractin (mitotic spindle associated protein) p-6C02C04 catalase 1 p-6C02C06 catalase 3 p-6C06C07 catalase 3 p-5C06H12 CD4B (chloroplast ATP-binding chaperonin) p-5C01H04 CD4B protein (chloroplast ATP-binding chaperonin) p-5C10A02 CD4B protein precursor p-csuh146 cell cycle protein CDC48 p-csuh17 chloroplast RNA binding protein p-csuh17 chloroplast RNA binding protein p-5C09B03 chymotrypsin inhibitor p-5C09C03 chymotrypsin inhibitor p-5C10D06 clathrin coat assembly protein p-5C08D04 CLPAB-type protein p-5C03B04 corn(activated) Hageman factor inhibitor p-csuh223 cysteine proteinase inhibitor p-6C02B05 cytosolic glyceraldehyde 3 phosphate dehydrogenase p-5C03D06 delta(24)-sterol c-methyltransferase p-5C08A08 disulfide isomerase p-5C11B04 disulfide isomerase p-5C08D02 DNA polymerase 1 p-5C03H10 DNAJ protein homolog p-6C06C06 E.coli ORF (P22564) p-5C10G09 elongation factor 1 - alpha p-5C08H09 elongation factor 1-alpha p-5C03C06 elongation factor 1-alpha subunit p-5C04H09 elongation factor 1-alpha subunit p-5C04H09 elongation factor 1-alpha subunit p-5C10C06 elongation factor eEF-1 gamma chain p-5C10A11 elongation factor TU, Chloroplast p-6C06E02 ENOD8 gene homologue (L18899) p-5C01C07 enolase p-5C09B01 enolase p-6C06C04 enoyl-CoA hydratase homology (P07896) p-5C06A10 G-box binding factor (homeobox gene?) p-5C08C12 G-protein subunit p-5C02E03 GAPD p-5C10H03 gene LDJ2 protein p-6C06C01 gene MS2 protein - Arabidopsis homologue (S33804) p-2C06H01 glucocorticoid receptor p-5C01G05 glucosamine--fructose-6-phosphate aminotransferase p-5C06E05 glucose-1-phosphate adenyltransferase p-5C07D11 glucose-1-phosphate adenyltransferase p-csuh111 glutathione reductase p-5C01F03 glyceraldehyde 3-phosphate dehydrogenase p-5C02C11 glyceraldehyde 3-phosphate dehydrogenase p-5C10H04 glyceraldehyde 3-phosphate dehydrogenase p-5C11A01 glyceraldehyde 3-phosphate dehydrogenase p-6C01H03 Glyceraldehyde-3-Phosphate Dehydrogenase p-5C09G12 glyceraldehyde-3-phosphate dehydrogenase p-5C01C11 glyceraldehyde-3-phosphate dehydrogenase C, cytosolic p-5C04E09 glyceraldehyde-3-phosphate dehydrogenase C, cytosolic p-5C04E09 glyceraldehyde-3-phosphate dehydrogenase C, cytosolic p-5C05F03 glyceraldehyde-3-phosphate dehydrogenase C, cytosolic p-6C01E07 glycine rich protein p-6C02G01 glycine rich protein p-6C02G12 glycine rich protein p-csuh195 glycine-rich protein p-csuh208 glycine-rich protein p-csuh215 glycine-rich protein p-5C10E03 glycine-rich protein p-5C10A05 glycogen (starch) synthase p-5C09H04 GOS2 protein p-5C04D03 GTP binding protein p-5C07G05 GTP-binding protein (SAR1) p-5C03G12 GTP-binding protein, SAR1 homolog p-5C01G12 guanine nucleotide-binding protein beta subunit p-5C06B04 guanine nucleotide-binding protein beta subunit p-5C03G07 H326 similarity p-csuh274 heat shock protein, 90kDa p-5C04B04 high sulfur keratin homolog p-5C04B04 high sulfur keratin homolog p-6C02C08 histone 2A p-5C04D12 histone 2B p-5C01C03 histone 4 p-5C09G02 histone H2B p-6C06C02 histone H2B p-5C05D06 histone H3.2 p-5C08D05 histone H3.2 p-5C02C03 histone H4 p-5C04D01 HSP70 p-5C04D01 HSP70 p-csuh179 HSP70 p-5C11E05 human activator 1 140 KD subunit p-5C05D01 hydroxy-rich protein homology p-5C06C07 initiation factor 5A p-5C07H01 initiation factor 5A p-5C09DO4 initiation factor 5A p-5C03H06 ketol-acid reductoisomerase p-5C05H04 ketol-acid reductoisomerase p-5C08G09 ketol-acid reductoisomerase p-5C04B05 L-alanine:2-oxoglutarate aminotransferase p-5C04B05 L-alanine:2-oxoglutarate aminotransferase p-5C04A03 Lea Group 3 proteinMLG3 p-5C04A03 Lea Group 3 proteinMLG3 p-5C04A03 Lea Group 3 proteinMLG3 p-csuh102 light-harvesting chlorophyll a/b binding protein p-csuh117 light-harvesting chlorophyll a/b binding protein p-csuh224 light-harvesting chlorophyll a/b binding protein p-csuh160 lipoxygenase p-csuh181 MAF1 p-5C10C02 maize GTP- binding protein YPTM2 p-5C10F10 Maize histone H2B.2 p-5C10F12 Maize sein - alpha precursor (19 KD) p-5C11E08 maize sein-alpha precursor (19 KD) p-5C11D03 maize sucrose synthase 1 p-5C05E10 metallothionein homology p-6C06B04 mevalonate kinaes (P17256) p-6C06A06 mevalonate kinase (P17256) p-6C06A05 Mevalonate Kinase homology (P17256) p-5C10D04 minor allergen, ribosoma p-5C07B07 mitochondral processing protease p-5C07F11 monodehydroascorbate reductase p-5C07D08 monohydroascorbate reductase homology p-5C09E04 NADH-ubiquinone oxidoreductase p-5C05D10 NADH-ubiquinone oxireductase homology p-5C01A02 No significant homologies p-5C01A03 No significant homologies p-6C06B07 no significant homology p-6C06B08 no significant homology p-6C06B10 no significant homology p-6C06C12 no significant homology p-6C06D05 no significant homology p-6C06D06 no significant homology p-6C06D08 no significant homology p-6C06D12 no significant homology p-5C08F01 nucleolin (topoisomerase 1) p-csuh56 o2 heterodimerizing protein p-csuh229 oxygen evolving complex, 17kDa subunit p-6C06B11 P450 hydroxylase p-5C01E06 paired amphipathic helix protein homology p-6C01D01 PEP carboxylase p-5C08F11 peptidyl-prolyl cis-trans isomerase p-6C06D10 pG1 homologue human (A44803) p-2C03G04 phospholipase p-2C03G04 phospholipase p-csuh67 photosystem I, subunit K p-csuh67 photosystem I, subunit K p-5C01E01 polyubiquitin p-5C08F02 PpoI endonuclease similarity p-5C06B09 profilin p-5C01H12 proteasome component C5 p-5C09B05 proteasome component C9 p-5C05G07 protein disulfide isomerase p-5C06F04 protein disulfide isomerase p-5C09A09 protein kinase (CTR1) p-5C08E10 protein kinase (STE7) p-5C03D08 protein kinase (tousled homolog) p-5C05H12 protein-tyrosine kinase homology SYK p-csuh18 PSI, subunit N p-csuh18 PSI, subunit N p-5C01B01 pyrophosphate-energized proton pump, vacuolar p-5C02E08 pyrophosphate-energized proton pump, vacuolar p-5C05B01 pyrophosphate-energized proton pump, vacuolar p-5C06D06 pyruvate dehydrogenase p-5C09B06 pyruvate dehydrogenase E1 p-5C04C06 pyruvate phosphate dikinase p-5C04A02 pyruvate, orthophosphate dikinase p-5C04A04 pyruvate, orthophosphate dikinase p-5C04B02 pyruvate, orthophosphate dikinase p-5C04B02 pyruvate, orthophosphate dikinase p-5C04D04 pyruvate, orthophosphate dikinase p-5C04G07 pyruvate, orthophosphate dikinase p-5C04G07 pyruvate, orthophosphate dikinase p-5C06G09 pyruvate, orthophosphate dikinase p-5C09B04 pyruvate, orthophosphate dikinase p-5C09C05 pyruvate, orthophosphate dikinase p-5C07E01 pyruvate,orthophosphate dikinase p-5C06F11 ribonuclease PH p-5C06H09 ribonuclease PH p-5C11D05 ribosomal 5S RNA binding protein - Rice p-5C07G06 ribosomal protein L12 p-5C09E05 ribosomal protein L14 p-5C06C05 ribosomal protein L19 p-5C01A04 ribosomal protein L24 p-5C02F01 ribosomal protein L30A p-5C02F07 ribosomal protein L30A p-5C04D11 ribosomal protein L5 p-5C04D11 ribosomal protein L5 p-5C05D07 ribosomal protein L5 p-5C09E10 ribosomal protein L5 p-5C09G08 ribosomal protein L5 p-5C03H03 ribosomal protein L5B p-5C06C03 ribosomal protein P2 p-5C02F12 ribosomal protein S11, cytoplasmic p-5C08C03 ribosomal protein S12 p-5C06G08 ribosomal protein S24E p-5C09A02 ribosomal protein S27 p-5C06G06 ribosomal protein S27A p-5C08B12 ribosomal protein S3 p-5C06A11 ribosomal protein S5 p-5C06H03 ribosomal protein S8 p-6C01G02 ribosomal RNA p-5C04B01 ribosome inactivating protein p-2C01C11 ribosyltransferase p-6C02C05 Ribulose bisphosphate carboxylase, large subunit p-5C07C06 RNA-binding protein p-5C01H11 S-adenosyl-L-homocysteine hydrolase p-5C10F02 S.cerevisiae chromosome p-5C09H10 Sec61 beta-subunit similarity p-5C10G07 Sh2 gene product p-5C06D08 sh2 gene product p-5C08B07 signal recognition particle 9kd chain p-5C01G03 some homology to OCS-element binding factor 1 p-5C04A01 sorbitol dehydrogenase p-5C09B11 starch branching enzyme 2 p-5C03G08 starch branching enzyme II p-5C03G08 starch branching enzyme II p-5C06F05 strong H beta 58 homolog homology (essential embryonic gene) p-5C04A07 sucrose synthase p-5C04A07 sucrose synthase p-5C04D10 sucrose synthase p-5C07G02 sucrose synthase p-5C03F05 sulfite reductase similarlity p-csuh182 superoxide dismutase, cytosolic p-2C07A12 synaptonemal complex associated DNA p-5C07G04 TAT-binding homolog 2 p-5C05C11 TATA-binding protein p-5C05H07 TATA-binding protein p-5C05B02 thioredoxin p-5C09C08 transcription factor (s1Fa) p-5C03F11 transcription factor similarity p-5C02E11 transplantation antigen homolog, L13A p-5C05F10 triose phosphate isomerase p-6C02G05 triose phosphate isomerase p-2C01H10 triosephosphate isomerase p-5C11B05 tubulin alpha-2 chain p-6C06C08 tubulin alpha-3 chain p-6C06D02 tubulin alpha-3 chain p-6C06B09 tubulin alpha-6 chain p-6C01B08 ubiquitin p-2C06C11 ubiquitin conjugating enzyme p-5C02F11 ubiquitin conjugating enzyme p-5C04D06 ubiquitin conjugating enzyme p-5C04D06 ubiquitin conjugating enzyme p-5C05D12 ubiquitin conjugating enzyme E2 p-5C07E09 ubiquitin conjugating enzyme E2 p-5C08E11 ubiquitin precursor p-5C02H07 UDP-glucose pyrophosphorylase p-6C02D08 UDP-glucose pyrophosphorylase p-5C06D10 uromodulin homology p-csuh37 vacuolar (H+)-ATPase, 54 kDa p-6C02E07 vacuolar (H+)-ATPase, subunit B p-5C06E01 voltage dependent anion channel (porin) p-5C07D01 votage dependent anion channel (porin) p-5C05B11 wound inducible basic protein homology p-5C10E02 yeast GLY1 protein p-5C03E06 yeast hypothetical 97.6kd protein p-5C09B07 yeast hypothetical 97.6kd protein p-5C05C09 yeast ORF p-5C09D05 yeast replication factor similarity p-5C10F09 zein - alpha precursor (19KD) p-5C01H08 zein alph-19KD p-5C02C05 zein alph-22KD p-5C02C08 zein alph-22KD p-5C10H10 zein alpha precursor (22KD) p-5C10E04 zein zA1- maize p-2C06D05 zein-1 (alpha zein) p-2C06H03 zein-1 (alpha zein) p-2C06H04 zein-1 (alpha zein) p-2C07B12 zein-1 (alpha zein) p-5C01C05 zein-1 (alpha zein) p-5C02A08 zein-1 (alpha zein) p-5C03B06 zein-1 (alpha zein) p-5C03B07 zein-1 (alpha zein) p-5C03G02 zein-1 (alpha zein) p-5C04D05 zein-1 (alpha zein) p-5C04D05 zein-1 (alpha zein) p-5C04E08 zein-1 (alpha zein) p-5C04E08 zein-1 (alpha zein) p-5C04F08 zein-1 (alpha zein) p-5C04F08 zein-1 (alpha zein) p-5C04C11 zein-alph 19KD p-5C04C11 zein-alph 19KD p-csuh3 zzz p-csuh3 zzz p-csuh4 zzz p-csuh8 zzz p-csuh8 zzz p-csuh2 zzz p-csuh2 zzz p-csuh1 zzz p-csuh1 zzz p-csuh7 zzz p-csuh7 zzz p-csuh92 zzz p-csuh61 zzz p-csuh29 zzz p-csuh32 zzz p-csuh38 zzz p-csuh58 zzz p-csuh84 zzz p-csuh91 zzz p-csuh39 zzz p-csuh33 zzz p-csuh70 zzz p-csuh94 zzz p-csuh60 zzz p-csuh68 zzz p-csuh68 zzz p-csuh11 zzz p-csuh11 zzz p-csuh81 zzz p-csuh31 zzz p-csuh31 zzz p-csuh43 zzz p-csuh93 zzz p-csuh54 zzz p-csuh46 zzz p-csuh86 zzz p-csuh49 zzz p-csuh49 zzz p-csuh51 zzz p-csuh51 zzz p-csuh53 zzz p-csuh55 zzz p-csuh55 zzz p-csuh62 zzz p-csuh75 zzz p-csuh76 zzz p-csuh76 zzz p-csuh79 zzz p-csuh80 zzz p-csuh82 zzz p-csuh87 zzz p-csuh87 zzz p-csuh89 zzz p-2C01A03 zzz p-2C01A03 zzz p-2C01B08 zzz p-2C01F02 zzz p-2C01F04 zzz p-2C02B06 zzz p-2C02H02 zzz p-2C02H06 zzz p-2C02H06 zzz p-2C04G04 zzz p-2C01C05 zzz p-2C01E11 zzz p-2C01H07 zzz p-2C02A04 zzz p-2C02B02 zzz p-2C02B04 zzz p-2C02D11 zzz p-2C02H08 zzz p-csuh164 zzz p-csuh134 zzz p-csuh134 zzz p-csuh109 zzz p-csuh100 zzz p-csuh173 zzz p-csuh147 zzz p-2C01C09 zzz p-2C01D12 zzz p-2C01D12 zzz p-2C01E07 zzz p-2C01E09 zzz p-2C01H06 zzz p-2C02A03 zzz p-2C02C10 zzz p-2C02G07 zzz p-2C06F02 zzz p-2C06F07 zzz p-2C06F09 zzz p-2C07B01 zzz p-5C01A06 zzz p-5C01A08 zzz p-5C01A10 zzz p-5C01C01 zzz p-5C01D09 zzz p-5C01D10 zzz p-5C01D11 zzz p-5C01E03 zzz p-5C01E04 zzz p-5C01E08 zzz p-5C01F04 zzz p-5C01F06 zzz p-5C01G04 zzz p-5C01H06 zzz p-5C01H10 zzz p-5C02A09 zzz p-5C02A11 zzz p-5C02A12 zzz p-5C02B03 zzz p-5C02B06 zzz p-5C02B08 zzz p-5C02C01 zzz p-5C02C02 zzz p-5C02D02 zzz p-5C02D03 zzz p-5C02D05 zzz p-5C02D07 zzz p-5C02D09 zzz p-5C02D10 zzz p-5C02F09 zzz p-5C02F10 zzz p-5C02G08 zzz p-5C02H01 zzz p-5C02H03 zzz p-5C02H06 zzz p-5C02H11 zzz p-5C03A05 zzz p-5C03A06 zzz p-5C03A09 zzz p-5C03B01 zzz p-5C03B02 zzz p-5C03B03 zzz p-5C03C08 zzz p-5C03C12 zzz p-5C03D02 zzz p-5C03D05 zzz p-5C03D09 zzz p-5C03E07 zzz p-5C03E09 zzz p-5C03E10 zzz p-5C03F02 zzz p-5C03G01 zzz p-5C03H01 zzz p-5C03H11 zzz p-5C04A05 zzz p-5C04A09 zzz p-5C04B09 zzz p-5C04B09 zzz p-5C04B11 zzz p-5C04B11 zzz p-5C04C01 zzz p-5C04C03 zzz p-5C04C12 zzz p-5C04C12 zzz p-5C04D02 zzz p-5C04D02 zzz p-5C04D08 zzz p-5C04E02 zzz p-5C04E02 zzz p-5C04E03 zzz p-5C04E03 zzz p-5C04E04 zzz p-5C04E04 zzz p-5C04F03 zzz p-5C04F03 zzz p-5C04F04 zzz p-5C04F05 zzz p-5C04F06 zzz p-5C04F06 zzz p-5C04F09 zzz p-5C04F10 zzz p-5C04F11 zzz p-5C04G02 zzz p-5C04G02 zzz p-5C04G03 zzz p-5C04G03 zzz p-5C04G06 zzz p-5C04G08 zzz p-5C04G08 zzz p-5C04G10 zzz p-5C04G12 zzz p-5C04G12 zzz p-5C04H03 zzz p-5C04H07 zzz p-5C04H07 zzz p-5C04H10 zzz p-5C04H12 zzz p-5C05A01 zzz p-5C05A02 zzz p-5C05A10 zzz p-5C05A12 zzz p-5C05B05 zzz p-5C05B06 zzz p-5C05C03 zzz p-5C05C06 zzz p-5C05C08 zzz p-5C05D08 zzz p-5C05D09 zzz p-5C05E02 zzz p-5C05E06 zzz p-5C05E07 zzz p-5C05E08 zzz p-5C05F04 zzz p-5C05F07 zzz p-5C05F08 zzz p-5C05G02 zzz p-5C05G08 zzz p-5C05H01 zzz p-5C05H10 zzz p-5C06A03 zzz p-5C06A09 zzz p-5C06B10 zzz p-5C06C02 zzz p-5C06C10 zzz p-5C06C11 zzz p-5C06D02 zzz p-5C06D04 zzz p-5C06D07 zzz p-5C06E09 zzz p-5C06F06 zzz p-5C06G02 zzz p-5C06G03 zzz p-5C06G04 zzz p-5C06G07 zzz p-5C06G11 zzz p-5C06H02 zzz p-5C06H05 zzz p-5C06H11 zzz p-5C07A06 zzz p-5C07A07 zzz p-5C07A08 zzz p-5C07B03 zzz p-5C07B04 zzz p-5C07B09 zzz p-5C07B11 zzz p-5C07C01 zzz p-5C07C04 zzz p-5C07C09 zzz p-5C07C12 zzz p-5C07D05 zzz p-5C07E02 zzz p-5C07E04 zzz p-5C07E06 zzz p-5C07E12 zzz p-5C07F06 zzz p-5C07G01 zzz p-5C07G07 zzz p-5C07G10 zzz p-5C07H02 zzz p-5C07H06 zzz p-5C08A01 zzz p-5C08A02 zzz p-5C08A05 zzz p-5C08A09 zzz p-5C08B05 zzz p-5C08B11 zzz p-5C08BO1 zzz p-5C08C06 zzz p-5C08C09 zzz p-5C08C10 zzz p-5C08D03 zzz p-5C08D06 zzz p-5C08D09 zzz p-5C08E01 zzz p-5C08E06 zzz p-5C08H02 zzz p-5C08H05 zzz p-5C09A07 zzz p-5C09A08 zzz p-5C09B09 zzz p-5C09B12 zzz p-5C09C02 zzz p-5C09C10 zzz p-5C09D07 zzz p-5C09D08 zzz p-5C09E03 zzz p-5C09F12 zzz p-5C09G11 zzz p-6C01A04 zzz p-6C01A05 zzz p-6C01A06 zzz p-6C01A07 zzz p-6C01A08 zzz p-6C01A10 zzz p-6C01A11 zzz p-6C01A12 zzz p-6C01B02 zzz p-6C01B04 zzz p-6C01B05 zzz p-6C01B06 zzz p-6C01B07 zzz p-6C01B09 zzz p-6C01B10 zzz p-6C01C01 zzz p-6C01C02 zzz p-6C01C04 zzz p-6C01C07 zzz p-6C01C09 zzz p-6C01C10 zzz p-6C01C11 zzz p-6C01C12 zzz p-6C01D02 zzz p-6C01D03 zzz p-6C01D04 zzz p-6C01D05 zzz p-6C01D06 zzz p-6C01D07 zzz p-6C01D08 zzz p-6C01D09 zzz p-6C01D10 zzz p-6C01D11 zzz p-6C01D12 zzz p-6C01E01 zzz p-6C01E03 zzz p-6C01E04 zzz p-6C01E08 zzz p-6C01E09 zzz p-6C01E11 zzz p-6C01F01 zzz p-6C01F02 zzz p-6C01F05 zzz p-6C01F06 zzz p-6C01F08 zzz p-6C01F09 zzz p-6C01F10 zzz p-6C01F11 zzz p-6C01F12 zzz p-6C01G01 zzz p-6C01G04 zzz p-6C01G05 zzz p-6C01G08 zzz p-6C01G09 zzz p-6C01G11 zzz p-6C01G12 zzz p-6C01H01 zzz p-6C01H02 zzz p-6C01H05 zzz p-6C01H06 zzz p-6C01H07 zzz p-6C01H08 zzz p-6C02A01 zzz p-6C02A03 zzz p-6C02A04 zzz p-6C02A05 zzz p-6C02A06 zzz p-6C02A07 zzz p-6C02A08 zzz p-6C02A10 zzz p-6C02A11 zzz p-6C02A12 zzz p-6C02B01 zzz p-6C02B03 zzz p-6C02B04 zzz p-6C02B06 zzz p-6C02B09 zzz p-6C02C01 zzz p-6C02C02 zzz p-6C02C03 zzz p-6C02C07 zzz p-6C02C09 zzz p-6C02C10 zzz p-6C02D01 zzz p-6C02D03 zzz p-6C02D09 zzz p-6C02D12 zzz p-6C02E01 zzz p-6C02E02 zzz p-6C02E03 zzz p-6C02E09 zzz p-6C02E10 zzz p-6C02F01 zzz p-6C02F02 zzz p-6C02F03 zzz p-6C02F04 zzz p-6C02F05 zzz p-6C02F08 zzz p-6C02F10 zzz p-6C02F12 zzz p-6C02G03 zzz p-6C02G04 zzz p-6C02G06 zzz p-6C02G09 zzz p-6C02G10 zzz p-6C02G11 zzz p-6C02H02 zzz p-6C02H05 zzz p-6C02H08 zzz p-6C02H09 zzz p-6C02H10 zzz p-6C02H12 zzz p-6C04B05 zzz p-6C04B07 zzz p-6C04C04 zzz p-6C04E06 zzz p-csuh105 zzz p-csuh112 zzz p-csuh131 zzz p-csuh141 zzz p-csuh153 zzz p-csuh163 zzz p-csuh167 zzz p-csuh172 zzz p-csuh176 zzz p-csuh180 zzz p-csuh186 zzz p-csuh193 zzz p-csuh200 zzz p-csuh201 zzz p-csuh202 zzz p-csuh203 zzz p-csuh204 zzz p-csuh205 zzz p-csuh209 zzz p-csuh211 zzz p-csuh213 zzz p-csuh214 zzz p-csuh216 zzz p-csuh217 zzz p-csuh219 zzz p-csuh220 zzz p-csuh221 zzz p-csuh222 zzz p-csuh225 zzz p-csuh226 zzz p-csuh227 zzz p-csuh228 zzz p-csuh230 zzz p-csuh231 zzz p-csuh233 zzz p-csuh234 zzz p-csuh235 zzz p-csuh236 zzz p-csuh237 zzz p-csuh244 zzz p-csuh245 zzz p-csuh249 zzz p-csuh250 zzz p-csuh252 zzz p-csuh255 zzz p-csuh257 zzz p-csuh262 zzz p-csuh263 zzz p-csuh264 zzz p-csuh265 zzz p-csuh266 zzz p-csuh267 zzz p-csuh268 zzz p-csuh269 zzz p-csuh277 zzz p-csuh285 zzz p-5C10A07 zzz p-5C10A09 zzz p-5C10A12 zzz p-5C10C04 zzz p-5C10C09 zzz p-5C10D01 zzz p-5C10D12 zzz p-5C10E01 zzz p-5C10E05 zzz p-5C10E06 zzz p-5C10E11 zzz p-5C10E12 zzz p-5C10F04 zzz p-5C10F07 zzz p-5C10F08 zzz p-5C10G01 zzz p-5C10G08 zzz p-5C10H02 zzz p-5C10H06 zzz p-5C10H07 zzz p-5C11B01 zzz p-5C11B03 zzz p-5C11B06 zzz p-5C11B12 zzz p-5C11C02 zzz p-5C11C05 zzz p-5C11D01 zzz p-5C11D04 zzz p-5C11E04 zzz p-5C11E10 zzz p-5C11F03 zzz p-5C11F07 zzz p-5C11F12 zzz From owner-grasses@net.bio.net Sun Nov 13 22:00:00 1994 Path: biosci!DEPT.AGRY.PURDUE.EDU!Daniel=Weisenberger%dept%agronomy From: Daniel=Weisenberger%dept%agronomy@DEPT.AGRY.PURDUE.EDU Newsgroups: bionet.biology.grasses Subject: (none) Date: 14 Nov 1994 12:57:59 -0800 Organization: BIOSCI International Newsgroups for Molecular Biology Lines: 1 Sender: daemon@net.bio.net Distribution: world Message-ID: <199411142057.MAA11423@net.bio.net> NNTP-Posting-Host: net.bio.net unsubscribe grasses From owner-grasses@net.bio.net Tue Nov 15 22:00:00 1994 Path: biosci!bloom-beacon.mit.edu!panix!zip.eecs.umich.edu!caen!uwm.edu!cs.utexas.edu!swrinde!howland.reston.ans.net!wupost!news.miami.edu!felix.rsmas.miami.edu!user From: bbischof@rsmas.miami.edu (Baerbel Bischof) Newsgroups: bionet.biology.grasses Subject: PLANT QUESTIONS Followup-To: bionet.biology.grasses Date: 16 Nov 1994 00:31:47 GMT Organization: University of Miami / RSMAS Lines: 20 Distribution: world Message-ID: NNTP-Posting-Host: felix.rsmas.miami.edu Hi there... I'm not sure if this is the proper group to ask this, but I'm having somewhat of a dilemma in finding some names, both common and scientific for particular plants. Could anyone please tell me the common names for 1. Acrostichum sp. and 2. Pelliciera sp. and I also need to know what the scientific name for the vine kudzu is... Please e-mail me. Thanks Barbie Barbie Bischof Rosenstiel School of Marine and Atomospheric Science Division of Marine Geology and Geophysics 4600 Rickenbacker Cswy. Miami, FL 33149 From owner-grasses@net.bio.net Thu Nov 17 22:00:00 1994 Path: biosci!rutgers!uwm.edu!cs.utexas.edu!howland.reston.ans.net!vixen.cso.uiuc.edu!uxa.cso.uiuc.edu!macg1971 From: "M A. Chaves-chamorro" Newsgroups: bionet.biology.grasses Subject: MUSTARD wanted Date: Fri, 18 Nov 1994 15:21:57 -0600 Organization: University of Illinois at Urbana Lines: 7 Message-ID: References: NNTP-Posting-Host: uxa.cso.uiuc.edu Mime-Version: 1.0 Content-Type: TEXT/PLAIN; charset=US-ASCII In-Reply-To: I am looking for ftp-accessible information about MUSTARD, in particular on cultivation, farming, fertilization, harvesting, etc., of the two varieties BRASSICA NIGRA and SINAPIS ALBA. Thank you for your (as soon as possible help). Hernando Matallana From owner-grasses@net.bio.net Mon Nov 21 22:00:00 1994 Path: biosci!ACADVM1.UOTTAWA.CA!ALTOSAAR From: ALTOSAAR@ACADVM1.UOTTAWA.CA (Illimar Altosaar) Newsgroups: bionet.biology.grasses Subject: Rice Endosperm Cultures Date: 22 Nov 1994 12:37:28 -0800 Organization: BIOSCI International Newsgroups for Molecular Biology Lines: 13 Sender: daemon@net.bio.net Distribution: world Message-ID: <199411222037.MAA18447@net.bio.net> NNTP-Posting-Host: net.bio.net Dear Colleagues! Any RICE ENDOSPERM SUSPENSION CULTURES ANYWHERE PLEASE? ----------------------------Original message---------------------------- Does anyone have or know of the whereabouts of some RICE ENDOSPERM CELL SUSPENSION CULTURES? We have a number of different MAIZE endosperm cultures growing welll in our lab over the past three years but now we need to bring in a rice endosperm culture for comparison. Please let me know if you have any information or references on RICE ENDOSPERM CULTURES. I. Altosaar, Professor Of Biochemistry, Faculty of Medicine University of Ottawa, 40 Marie Curie, Ottawa, Canada From owner-grasses@net.bio.net Mon Nov 21 22:00:00 1994 Path: biosci!PLANTPATH.WISC.EDU!dkw From: dkw@PLANTPATH.WISC.EDU ("D. Kyle Willis") Newsgroups: bionet.biology.grasses Subject: Arabiflora 1995 Date: 22 Nov 1994 10:20:32 -0800 Organization: BIOSCI International Newsgroups for Molecular Biology Lines: 29 Sender: daemon@net.bio.net Distribution: world Message-ID: NNTP-Posting-Host: net.bio.net MEETING ANNOUNCEMENT _____________________________________________________________________________ This is the First Announcement for the Sixth International Conference on Arabidopsis Research to be held at the University of Wisconsin-Madison, Madison, WI from June 7 (Wednesday) to 11 (Sunday), 1995. Topics for discussion include: Development (embryonic, post-embryonic, floral, root) Response to Environmental Stress and Pathogens Growth Regulators Biochemical Genetics Cell Biology Genomics and related technologies An electronic registration form and updated information will follow within 2 to 3 weeks. MARK YOUR CALENDARS NOW!!!! ________________________________________________________________________________ ________________________________________________________________________________ D. Kyle Willis USDA/ARS Department of Plant Pathology 1630 Linden Drive University of Wisconsin Madison, WI 53706 From owner-grasses@net.bio.net Thu Nov 24 22:00:00 1994 Path: biosci!agate!howland.reston.ans.net!Germany.EU.net!EU.net!sunic!news.uni-c.dk!BoJ.bot.ku.dk!BOJ From: BOJ@bot.ku.dk (Bo Johansen) Newsgroups: bionet.biology.grasses Subject: Secale cereale 4X Date: Fri, 25 Nov 1994 09:52:41 Organization: News Server at UNI-C, Danish Computing Centre for Research and Education. Lines: 11 Message-ID: NNTP-Posting-Host: boj.bot.ku.dk X-Newsreader: Trumpet for Windows [Version 1.0 Rev A] Hi, Can someone direct me to a place where I can obtain live material (seeds) og tetraploid Secale cereale. Thank you. Bo ______________________________________________________________ Bo Johansen, Botanical Laboratory, Univ. of Copenhagen, Gothersgade 140, DK-1123 Copenhagen K, DENMARK. Voice: +45 3532 2167, Fax: +45 3313 9104 E-mail: BoJ@bot.ku.dk From owner-grasses@net.bio.net Thu Nov 24 22:00:00 1994 Path: biosci!BIOSCI.MBP.MISSOURI.EDU!muszynski From: muszynski@BIOSCI.MBP.MISSOURI.EDU (Mike Muszynski) Newsgroups: bionet.biology.grasses Subject: Juvenile to adult transition Date: 25 Nov 1994 14:04:06 -0800 Organization: BIOSCI International Newsgroups for Molecular Biology Lines: 71 Sender: daemon@net.bio.net Distribution: world Message-ID: <199411252204.OAA27459@net.bio.net> NNTP-Posting-Host: net.bio.net Dear netters- Awhile back I asked for advice in determining the juvenile to adult transition for a particular line of maize. I received 2 replies which are summarized below: spoethig@sas.upenn.edu (Scott Poethig) writes: >You might want to consult Evans et al, 1994, Development 120:1971-1981 for >information about various phase-specific traits and how to assay them. The >most reliable traits are epidermal in origin. We routinely use >epicuticular wax and macrohairs. We also score other epidermal traits by >taking leaf specimens, fixing in 3:1 ethanol:acetic acid overnight, and >then staining in a dilute solution of toluidine blue. We make up a 0.05% >stock solution (0.01M% sodium acetate, pH 4.4) and dilute it 1:15 in water. > Specimens can be left in this indefinitely. Alternatively, if you want >prettier preparations (i.e. no interference from veins in the mesophyll), >you can digest off the epidermis (see Dudley and Poethig, 1993, Genetics >133:389-399) and stain it. > >Incidentally, the position of prop roots is affected by the reproductive >development of the shoot. That is early flowering lines have fewer nodes >with prop roots than their late flowering counterparts. > >Good luck, > >Scott Poethig -------------------------------------------------------------------------------- sisco@unity.ncsu.edu writes: >Mike, My studednt Steve Moose and I have been looking at this phase >transition in connection with glossy15, which controls it. We have a >paper coming out in the October Plant Cell with some good photos both of >leaf surface and stained epidermal cells showing the transition. If you >can't wait until the paper come out contact Steve Moose >(spmoose@unity.ncsu.edu) > Paul Sisco ---------------------------------------------------------------------------- ------- The Moose and Sisco paper is out (Plant Cell 6:1343-1355) and has excellent photographs of epidermal wax and stained epidermal peels. I've been scoring for epidermal wax, macrohairs and staining leaf pieces with toluidine blue. After staining the, the color of the epidermal cell walls and amount of epidermal cell wall crenulation are very easy to score under light microscopy. Wax, macrohairs and toluidine staining are reliable, easy and obvious traits to score, in my hands. Mike Muszynski ***************************************************************************** .:. .:::. Mike Muszynski .:::::. ***.:::::::.*** 101 Tucker Hall *******.:::::::::.******* Univ. of Missouri-Columbia ********.:::::::::::.******** Columbia, MO 65211 ********.:::::::::::::.******** *******.::::::'***`::::.******* lab: (314) 882-1168 ******.::::'*********`::.****** fax: (314) 882-0123 ****.:::'*************`:.**** *.::'*****************`.* muszynski@biosci.mbp.missouri.edu .:' *************** . **************************************************************************** *