Your search keyword '"Wernsman EA"' showing total 18 results

1. Characterization of Potato Virus Y Resistance from Gametoclonal Variation in Flue-Cured Tobacco

Author

Wernsman Ea, Gooding GVJr, and Yung Ch

Subjects

biology, Potato virus Y, Tobacco etch virus, Nicotiana tabacum, Curing of tobacco, Doubled haploidy, Potyvirus, Plant Science, biology.organism_classification, Agronomy and Crop Science, Virology, Solanaceae, Virus

Abstract

A previously identified gametoclonal tobacco variant, NC 602, exhibits resistance to certain potato virus Y (PVY) strains. NC 602 was subjected to a second cycle of anther culture and colchicine treatment. The resulting doubled haploid lines were evaluated for back mutation to susceptibility and any additional mutation that might provide resistance to tobacco etch virus (TEV). The PVY resistance was stable in anther culture, and although no TEV resistance was found, three lines were identified with delayed symptom onset (...)

Published

1991

2. Effect of a Chromosome Segment Marked by the Ph p Gene for Resistance to Phytophthora nicotianae on Reproduction of Tobacco Cyst Nematodes.

Author

Johnson CS, Wernsman EA, and LaMondia JA

Abstract

Host resistance is an important strategy for managing Globodera tabacum subsp. solanacearum and G. tabacum subsp. tabacum, important nematode pests of flue-cured tobacco (Nicotiana tabacum) in Virginia, and cigar wrapper tobacco (N. tabacum) in Connecticut and Massachusetts, respectively. Field research from 1992 to 2005 evaluated reproduction of G. tabacum subsp. solanacearum on genotypes with and without a chromosome segment from N. plumbaginifolia containing a gene (Ph p ) that conferred resistance to race 0 of Phytophthora nicotianae (causal agent of tobacco black shank). Ratios of G. tabacum subsp. solanacearum eggs/500 cm 3 soil at the end versus the beginning of experiments (P f /P i ) were significantly lower in cultivars and breeding lines possessing the Ph p -containing chromosome segment from N. plumbaginifolia compared with genotypes without the segment. Numbers of vermiform G. tabacum subsp. solanacearum juveniles in roots were similar among genotypes but numbers of swollen and pyriform nematodes were significantly lower for the known G. tabacum subsp. solanacearum resistant cv. NC 567 and in genotypes possessing the Ph p gene compared with genotypes and cultivars without the gene. In a 2003 greenhouse test, the percentage of plants with visible G. tabacum subsp. tabacum cysts was also significantly lower for parental and progeny genotypes homozygous and heterozygous, respectively, for Ph p compared with similar lines without the gene. These results indicate a close linkage or association between a likely single, dominant gene (Ph p ) for resistance to P. nicotianae and suppressed reproduction by G. tabacum subsp. solanacearum and G. tabacum subsp. tabacum. Further research to accurately elucidate the relationships among these genes could lead to significant improvements in tobacco disease control.

Published

2009

3. The negative influence of N-mediated TMV resistance on yield in tobacco: linkage drag versus pleiotropy.

Author

Lewis RS, Linger LR, Wolff MF, and Wernsman EA

Subjects

Cloning, Molecular, Immunity, Innate genetics, Inbreeding, Mutagenesis, Insertional, Plant Diseases genetics, Plant Diseases virology, Plant Proteins physiology, Plants, Genetically Modified physiology, Plants, Genetically Modified virology, Nicotiana physiology, Nicotiana virology, Tobacco Mosaic Virus physiology, Transformation, Genetic, Transgenes, Genetic Linkage, Plant Proteins genetics, Nicotiana genetics

Abstract

Resistance to tobacco mosaic virus (TMV) is controlled by the single dominant gene N in Nicotiana glutinosa L. This gene has been transferred to cultivated tobacco (N. tabacum L.) by interspecific hybridization and backcrossing, but has historically been associated with reduced yields and/or quality in flue-cured tobacco breeding materials. Past researchers have suggested the role of pleiotropy and/or linkage drag effects in this unfavorable relationship. Introduction of the cloned N gene into a TMV-susceptible tobacco genotype (cultivar 'K326') via plant transformation permitted investigation of the relative importance of these possibilities. On average, yield and cash return ($ ha(-1)) of 14 transgenic NN lines of K326 were significantly higher relative to an isoline of K326 carrying N introduced via interspecific hybridization and backcrossing. The negative effects of tissue culture-induced genetic variation confounded comparisons with the TMV-susceptible cultivar, K326, however. Backcrossing the original transgenic lines to non-tissue cultured K326 removed many of these unfavorable effects, and significantly improved their performance for yield and cash return. Comparisons of the 14 corresponding transgenic NN backcross-derived lines with K326 indicated that linkage drag is the main factor contributing to reduced yields in TMV-resistant flue-cured tobacco germplasm. On average, these transgenic lines outyielded the conventionally-developed TMV-resistant K326 isoline by 427 kg ha(-1) (P < 0.05) and generated $1,365 ha(-1) more (P < 0.05). Although transgenic tobacco cultivars are currently not commercially acceptable, breeding strategies designed to reduce the amount of N. glutinosa chromatin linked to N may increase the likelihood of developing high-yielding TMV-resistant flue-cured tobacco cultivars.

Published

2007

4. Marker-Assisted Selection for Resistance to Black Shank Disease in Tobacco.

Author

Johnson ES, Wolff MF, Wernsman EA, and Rufty RC

Abstract

Bulked segregant (BSA) and random amplified polymorphic DNA (RAPD) analyses were used to identify markers linked to the dominant black shank resistance gene, Ph, from flue-cured tobacco (Nicotiana tabacum) cv. Coker 371-Gold. Sixty RAPD markers, 54 in coupling and 6 in repulsion phase linkage to Ph, were identified in a K 326-derived BC 1 F 1 (K 326-BC 1 F 1 ) doubled haploid (DH) population. Thirty RAPD markers, 26 in coupling and 4 in repulsion phase linkage to Ph, were used to screen 149 K 326-BC 2 F 1 haploid plants. Complete linkage between the 26 coupling phase markers and Ph was confirmed by screening 149 K 326-BC 2 F 1 DH lines produced from the haploid plants in black shank nurseries. RAPD markers OPZ-5 770 in coupling and OPZ-7 370 in repulsion phase linkage were used to select plants homozygous for the Ph gene for further backcrossing to the widely grown flue-cured cultivar K 326. Black shank disease nursery evaluation of 11 K 326-BC 4 S 1 lines and their testcross hybrids to a susceptible tester confirmed linkage between Ph and OPZ-5 770 . The results demonstrated the efficiency of marker-assisted selection for Ph using a RAPD marker linked in coupling and repulsion. Complete linkage between 26 RAPD markers and the Ph gene was confirmed in the K 326-BC 5 generation, and RAPD phenotypes were stable across generations and ploidy levels. These RAPD markers are useful in marker-assisted selection for Ph, an important black shank resistance gene in tobacco.

Published

2002

5. Origin of the Black Shank Resistance Gene, Ph, in Tobacco Cultivar Coker 371-Gold.

Author

Johnson ES, Wolff MF, Wernsman EA, Atchley WR, and Shew HD

Abstract

Flue-cured tobacco (Nicotiana tabacum) cultivar Coker 371-Gold (C 371-G) possesses a dominant gene, Ph, that confers high resistance to black shank disease, caused by race 0 of the soil-borne pathogen Phytophthora parasitica var. nicotianae. The origin of this gene is unknown. Breeding lines homozygous for the Ph gene were hybridized with NC 1071 and L8, flue-cured and burley genotypes known to possess qualitative resistance genes from Nicotiana plumbaginifolia and N. longiflora, respectively. The F 1 hybrids were out-crossed to susceptible testers and the progenies evaluated in field black shank nurseries and in greenhouse disease tests with P. parasitica var. nicotianae race 0. Results showed that Ph was allelic to Php from N. plumbaginifolia in NC 1071. Testcross populations of hybrids between burley lines homozygous for Ph and L8, possessing Phl from N. longiflora, showed that Ph and Phl integrated into the same tobacco chromosome during interspecific transfer. Nevertheless, the two loci were estimated to be 3 cM apart. Random amplified polymorphic DNA (RAPD) analyses of the testcross progenies confirmed that recombination between the two loci was occurring. Forty-eight RAPD markers linked to Ph in doubled haploid lines were used in cluster analyses with multiple accessions of N. longiflora and N. plumbaginifolia, breeding lines L8, NC 1071, and DH92-2770-40, and cultivars K 326, Hicks, and C 371-G. A cladogram or region tree confirmed the data obtained from field and greenhouse trials, that Ph, transferred from C 371-G to DH92-2770-40, and Php in NC 1071 were allelic and originated from N. plumbaginifolia.

Published

2002

6. Transposon tagging of the sulfur gene of tobacco using engineered maize Ac/Ds elements.

Author

Fitzmaurice WP, Nguyen LV, Wernsman EA, Thompson WF, and Conkling MA

Subjects

Base Sequence, DNA, Plant, Genetic Engineering, Genetic Linkage, Molecular Sequence Data, Mutagenesis, Phenotype, Polymerase Chain Reaction, Polymorphism, Restriction Fragment Length, DNA Transposable Elements, Iron-Sulfur Proteins genetics, Plants, Toxic, Nicotiana genetics, Zea mays genetics

Abstract

The Sulfur gene of tobacco is nuclearly encoded. A Su allele at this locus acts as a dominant semilethal mutation and causes reduced accumulation of chlorophyll, resulting in a yellow color in the plant. An engineered transposon tagging system, based upon the maize element Ac/Ds, was used to mutate the gene. High frequency of transposon excision from the Su locus produced variegated sectors. Plants regenerated from the variegated sector exhibited a similar variegated phenotype. Genetic analyses showed that the variegation was always associated with the transposase construct and the transposon was linked to the Su locus. Sequences surrounding the transposon were isolated, and five revertant sectors possessed typical direct repeats following Ds excisions. These genetic and molecular data are consistent with the tagging of the Su allele by the transposon.

Published

1999

7. Mapping the Root-Knot Nematode Resistance Gene (Rk) in Tobacco with RAPD Markers.

Author

Yi HY, Rufty RC, Wernsman EA, and Conkling MC

Abstract

Random amplified polymorphic DNA (RAPD) analysis was conducted to map the Rk gene in tobacco which conditions resistance to races 1 and 3 of the root-knot nematode, Meloidogyne incognita. Resistant burley tobacco genotype NC 528, containing the Rk gene, and the susceptible cultivar Ky 14 were screened with 1,500 random decamers. A low rate of genetic polymor-phism (<10%) was detected among these lines. Two populations (F 1 and F 3 ) of maternally de-rived doubled haploid (MDH) lines of burley tobacco, developed from the cross NC 528 × Ky 14, were used to map the Rk gene. NC 528, Ky 14, three Rk-resistant (Rk-R) DNA bulks, andthree Rk-susceptible (Rk-S) bulks generated from F 1 -derived MDH individuals were screenedwith the primers that amplified bands polymorphic between Rk-R and Rk-S lines. A total of 67 F1MDH lines and 59 F3MDH lines were screened with the primers that amplified bands polymorphic between Rk-R bulks and Rk-S bulks to confirm linkage between candidate markers and the Rk gene. Sixteen RAPD markers were positioned at six loci in a map 24.1 centimorgans long. Six RAPD markers, including one identified in the F3MDH population, were mapped at the Rk locus.

Published

1998

8. Inheritance of Resistance to Race 0 of Phytophthora parasitica var. nicotianae from the Flue-Cured Tobacco Cultivar Coker 371-Gold.

Author

Carlson SR, Wolff MAF, Shew HD, and Wernsman EA

Abstract

Black shank, caused by Phytophthora parasitica var. nicotianae, is a widespread and severe disease of tobacco throughout the southeastern United States. Partial resistance derived from the cigar tobacco cultivar Florida 301 has been the primary means of reducing losses to the disease for many years. The recently released tobacco cultivar, Coker 371-Gold (C 371-G), was found to provide an additional source of resistance to P. parasitica var. nicotianae. Although the resistance in C 371-G is being used widely by breeders, the origin and inheritance of this resistance mechanism was unknown. Two populations of doubled haploid lines derived from C 371-G were used to determine that C 371-G possesses a single, dominant gene designated Ph, which confers a very high level of resistance to race 0 of P. parasitica var. nicotianae. A greenhouse inoculation procedure was developed that provided an efficient means of screening for the presence of this resistance gene prior to selection in the field, and confirmed that Ph provides complete resistance to race 0 but no resistance to race 1 of P. parasitica var. nicotianae. Because Florida 301 resistance is effective against both races of the pathogen that occur in the major tobacco growing areas of the United States, combination of these two sources of resistance should provide enhanced protection of new tobacco cultivars to P. parasitica var. nicotianae.

Published

1997

9. Characterization of Post-Transcriptionally Suppressed Transgene Expression That Confers Resistance to Tobacco Etch Virus Infection in Tobacco.

Author

Tanzer MM, Thompson WF, Law MD, Wernsman EA, and Uknes S

Abstract

Tobacco lines expressing transgenes that encode tobacco etch virus (TEV) coat protein (CP) mRNA with or without nonsense codons give rise to TEV-resistant tissues that have reduced levels of TEV CP mRNA while maintaining high levels of transgene transcriptional activity. Two phenotypes for virus resistance in the lines containing the transgene have been described: immune (no virus infection) and recovery (initial systemic symptoms followed by gradual recovery over several weeks). Here, we show that at early times in development, immune lines are susceptible to TEV infection and accumulate full-length CP mRNA. Therefore, immune lines also exhibit meiotic resetting, as is seen in the recovery lines, providing molecular evidence for a common mechanism of gene silencing and virus resistance in both cases. We also investigated the characteristics of two sets of low molecular weight RNAs that appear only in silenced tissue. One set has nearly intact 5[prime] ends, lacks poly(A) tails, and is associated with polyribosomes; the second set contains the 3[prime] end of the mRNA. Treating silenced leaf tissue with cycloheximide resulted in decreased levels of full-length mRNA and an increase in the levels of the low molecular weight RNAs, supporting a cytoplasmic decay mechanism that does not require ongoing translation. Surprisingly, mRNA from the transgene containing nonsense codons was associated with more ribosomes than expected, possibly resulting from translation from a start codon downstream of the introduced translational stop codons. We present a hypothesis for transgene/viral RNA degradation in which RNA degradation occurs in the cytoplasm while in association with polyribosomes.

Published

1997

10. Genetic and biochemical dissection of transgenic RNA-mediated virus resistance.

Author

Goodwin J, Chapman K, Swaney S, Parks TD, Wernsman EA, and Dougherty WG

Subjects

Capsid genetics, Crosses, Genetic, Gene Dosage, Gene Expression Regulation, Plant, Genes, Viral, Immunity, Innate, Potyvirus genetics, Protein Biosynthesis, RNA metabolism, RNA Processing, Post-Transcriptional, RNA, Viral genetics, Species Specificity, Transcription, Genetic, Plant Diseases, Plants, Genetically Modified virology, Plants, Toxic, Potyvirus pathogenicity, RNA, Viral metabolism, Nicotiana virology

Abstract

RNA-mediated virus resistance has been observed in transgenic plants at varying frequencies, suggesting that a nuclear requirement or other pre-condition must be met. This study was undertaken to characterize genetically transgenes that confer a highly resistant state to infection by tobacco etch virus (TEV). Transgenic tobacco line 2RC-6.13, expressing an untranslatable mRNA containing the TEV coat protein open reading frame, had three distinct transgene integration events that segregated as two linkage groups. A genetic series of plants that contained zero, one, two, or all three transgene inserts in both homozygous and heterozygous conditions was produced and examined. Genetic and biochemical data suggested that RNA-mediated virus resistance is a multigenic trait in line 2RC-6.13; three or more transgenes were necessary to establish the highly resistant state. One or two transgene copies resulted in an inducible form of resistance (i.e., recovery). Transcription rates and steady state RNA levels of the transgene-derived transcript present in different members of the genetic series supported a post-transcriptional RNA degradation process as the underlying mechanism for transgene transcript reduction and virus resistance. This degradation process appeared to initiate via cleavage of specific sites within the target RNA sequence, as determined by RNA get blot and primer extension analyses of transgene-derived mRNA from various transgenic plant lines.

Published

1996

11. Transgenic plant virus resistance mediated by untranslatable sense RNAs: expression, regulation, and fate of nonessential RNAs.

Author

Smith HA, Swaney SL, Parks TD, Wernsman EA, and Dougherty WG

Subjects

Base Sequence, Models, Biological, Molecular Sequence Data, Plants, Genetically Modified, Potyvirus genetics, Protein Biosynthesis, RNA, Messenger genetics, RNA, Viral metabolism, Nicotiana genetics, Virus Diseases pathology, Virus Diseases prevention & control, Capsid genetics, Capsid Proteins, Plant Diseases, Plants, Toxic, Potyvirus pathogenicity, RNA, Viral genetics, Nicotiana virology

Abstract

Haploid leaf tissue of tobacco cultivars K326 and K149 was transformed with several transgenes containing cDNA of the potato virus Y (PVY) coat protein (CP) open reading frame (ORF). The various transgenes containing the PVY CP ORF sequence produced (1) the expected mRNA and CP product, (2) an mRNA rendered untranslatable by introduction of a stop codon immediately after the initiation codon, or (3) an antisense RNA that was untranslatable as a result of the incorrect orientation of the PVY CP ORF behind the transcriptional promoter. Homozygous doubled haploid (DH) (diploid) plants were generated, and selfed progeny from these plants were examined. Resistance was virus specific, functioning only against PVY. An inverse correlation between transgene-derived PVY transcript steady state levels and resistance was generally noted with lines expressing the untranslatable sense version of the PVY CP ORF. A collection of DH lines, derived from a single transformation event of a common haploid plant and isogenic for the PVY transgenes expressing untranslatable sense RNA, displayed different levels of PVY resistance. Lines with actively transcribed, methylated transgene sequences had low steady state levels of transgene transcript and a virus-resistant phenotype. These results are discussed within the context of sense suppression in plants.

Published

1994

12. Construction of a designer chromosome in tobacco.

Author

Campbell KG, Wernsman EA, Fitzmurice WP, and Burns JA

Abstract

The tobacco (Nicotiana tabacum L.) breeding line NC 152 is a doubled haploid that possesses an addition chromosome from N. africana [Merxm. and Buttler]. A gene on this chromosome confers potyvirus resistance (Poty(R)). Our objective was to use the addition chromosome as a base on which to construct a designer chromosome containing a foreign gene linkage package. A mutant dhfr gene conferring resistance to methotrexate (Mtx) was inserted into NC 152-haploid (n = 25) leaf tissue via Agrobacterium tumefaciens-mediated transformation. After chromosome doubling, 135 NC 152dhfr transformants (2n = 50) were pollinated with the potyvirus-susceptible (Poty(S)) cultivar 'McNair 944' (2n = 48). Linkage analysis was performed in the BC1 generation. Two transformants, NC 152dhfr-996 and NC 152dhfr-1517 exhibited complete linkage between Mtx resistance (Mtx(R)) and Poty(R). Segregants from these two transformants which were Mtx(R) and Poty(R) possessed 49 chromosomes, while Mtx sensitive (Mtx(S)) and Poty(S) progeny possessed 48 chromosomes. Eighty percent of the NC 152dhfr transformants transmitted the dhfr gene as one locus. Other foreign genes can be directed to the addition chromosome through transformation followed by selection for single loci with linkage to Poty(R) or Mtx(R). The integrity of both the foreign-gene linkage package and the rest of the genome will be maintained because recombination between the N. africiana and the N. tabacum chromosomes has not been observed.

Published

1994

13. Nucleotide sequence of the capsid protein cistrons from six potato virus Y (PVY) isolates infecting tobacco.

Author

Sudarsono, Woloshuk SL, Xiong Z, Hellmann GM, Wernsman EA, Weissinger AK, and Lommel SA

Subjects

Amino Acid Sequence, Base Sequence, DNA, Viral, Genetic Variation, Molecular Sequence Data, Plant Diseases microbiology, Plants, Toxic, Polymerase Chain Reaction, Solanum tuberosum, Nicotiana microbiology, Capsid genetics, Genes, Viral, Plant Viruses genetics, RNA Viruses genetics, Viral Structural Proteins genetics

Abstract

Complementary DNA libraries representing the capsid protein cistron of the potato virus Y (PVY) isolate 'Chilean', 'Hungarian', MsNr, NsNr, O, and 'Potato US' were synthesized and used as template for polymerase chain reaction (PCR) amplification. An AUG codon for initiating a discrete capsid protein (CP) open reading frame was embedded upstream of the first codon of the CP cistrons. PCR-amplified products of the expected size of 0.8 kilo bases were cloned into the transcription vector pBS(+). The fidelity of each PCR-amplified PVY CP cistron was tested by transcribing recombinant plasmids in vitro and translating the transcripts in two cell free translation systems. Translation analysis of in vitro transcribed PVY CP cistrons consistently yielded a polypeptide co-migrating with authentic CP that was immunoprecipitated by anti PVY 'Chilean' antibodies. The nucleotide sequence of each capsid protein gene was determined by dideoxy sequence analysis. Each capsid protein gene was determined to be 801 nucleotides in length, encoding a deduced protein of 267 amino acids with calculated M(r) ranging from 29,799 to 29,980. The nucleic acid sequence similarity between the six isolates ranged between 89 to 97% and the amino acid similarity between 91 to 99%. The high level of amino acid sequence similarity confirms the classification of these viruses as isolates of PVY.

Published

1993

14. Development and characterization of a generalized gene tagging system for higher plants using an engineered maize transposon Ac.

Author

Fitzmaurice WP, Lehman LJ, Nguyen LV, Thompson WF, Wernsman EA, and Conkling MA

Subjects

Base Sequence, Blotting, Southern, Cloning, Molecular methods, Crosses, Genetic, DNA, Drug Resistance genetics, Genetic Engineering, Glucuronidase genetics, Methotrexate pharmacology, Molecular Sequence Data, Nucleotidyltransferases genetics, Nucleotidyltransferases metabolism, Plants, Toxic, Polymerase Chain Reaction, Promoter Regions, Genetic, Rhizobium, Seeds genetics, Nicotiana, Transformation, Genetic, Transposases, DNA Transposable Elements, Genetic Markers, Plants genetics, Zea mays genetics

Abstract

This report describes a series of transposon tagging vectors for dicotyledonous plants based on the maize transposable element Ac. This binary system includes the transposase (Ts) and the tagging element (Ds) on separate T-DNA vectors. Ts elements include versions in which transcription is driven either by the endogenous Ac promoter or by the cauliflower mosaic virus (CaMV) 35S promoter. Ds tagging element includes a gene conferring methotrexate (Mtx) resistance for selection and a supF gene to facilitate cloning of tagged sequences. The Ds element is flanked by a CaMV 35S promoter and the beta-glucuronidase (GUS) coding sequence so that GUS expression occurs upon excision of the element. We have transformed these Ts and Ds elements into tobacco and demonstrated that the Ts is functional with either promoter, and that the artificial Ds elements are capable of transposition. The amount of excision was found to depend upon both the individual Ts and Ds primary transformants used. Somatic excision of Ds was seen in up to 100% of progeny seedlings containing Ts and Ds. Germinal excision was detected in up to 48% of the progeny of plants containing both elements. Hence, this system can generate a sufficient number of events to be useful in gene tagging.

Published

1992

15. Characterization of a gametoclonal variant controlling virus resistance in tobacco.

Author

Witherspoon WD Jr, Wernsman EA, Gooding GV Jr, and Rufty RC

Abstract

Potato virus Y (PVY), susceptible tobacco (Nicotiana tabacum L.) cultivar, McNair 944, was subjected to in vitro anther culture to determine if genetic variability for virus resistance could be induced among resulting haploids. Five hundred and forty-five haploids were produced and inoculated with a highly necrotic strain (NN) of PVY. One haploid plant survived, even though it was infected with the virus. Selfed progenies of a chromosome-doubled plant of this variant, designated NC 602, proved to be highly resistant to the necrotic effects of the virus. An investigation into the genetic nature of this variant showed the resistance mechanism to be controlled by a single gene exhibiting incomplete dominance. Cytoplasmic and maternal effects were not involved in the disease resistance reaction. The variant was challenged with ten additional strains of PVY from an international collection, and it proved to be resistant to three (VAM-B, MM, and Spanish) strains. NC 602 was evaluated for five agronomic traits and concentrations of total alkaloids as nicotine and reducing sugars in cured leaf. The gametoclonal variant differed from McNair 944 only for cured leaf yield, where an 18.4% reduction was measured.

Published

1991

16. The value of gametoclonal variation in breeding for quantitative traits in flue-cured tobacco (Nicotiana tabacum L.).

Author

Yung CH and Wernsman EA

Abstract

In tobacco (Nicotiana tabacum L.), anther-derived doubled haploid populations have been shown to exhibit large amounts of unexpected genetic variation and a severe depression in cured leaf yield when compared to conventionally inbred genotypes from comparable sources. A previous study had predicted that the yield depression observed in a doubled haploid population-derived from a near homozygous cultivar, NC95, might be overcome through a recurrent selection program. In the current study, progress from three cycles of full-sib family selection for improved yield in an anther-culture derived population of NC95 was measured, as well as the remaining genetic variation within the population. A design II experiment was conducted in the population following three cycles of selection. Results indicate that the NC95 yield level has been recovered in the third selection cycle population. Although most of the genetic variation in the population appears to be exhausted, the additive genetic variance among maternal half-sib families for yield is significant, and it appears that continued yield improvement can be made through recurrent selection. Significant additive-genetic variance for yield was found among maternal half-sib families but was essentially zero among the paternal half-sib families, suggesting that remaining genetic variation is not being transmitted through pollen. One possible explanation results from the phenomenon of DNA amplification that can occur during the anther culture process, and that may enable extraordinary recombinational events and reduce the viability of male gametes.

Published

1990

17. Maternal Haploids of Nicotiana tabacum L. from Seed.

Author

Burk LG, Gerstel DU, and Wernsman EA

Abstract

Abundant seeds of high germinability are obtained when Nicotiana tabacum is pollinated by Nicotiana africana. Most of the seedlings die at the cotyledonary stage. The remaining seedlings are viable F(1) hybrids or maternal haploids that can be easily distinguished. This simple method of producing Nicotiana tabacum haploids offers an alternative to anther culture.

Published

1979

18. Extranuclear Temperature-Sensitive Lethality in Nicotiana tabacum L.

Author

Matzinger DF and Wernsman EA

Abstract

Tobacco seedlings from progeny of a single aberrant plant, either self-fertilized or used as the female in crosses, failed to become autotrophic at 13 degrees day and 8 degrees night temperatures, but grew normally at 26 degrees day and 20 degrees night temperatures. After initial normal growth at 26 degrees day and 20 degrees night temperatures, autotrophic plants from the aberrant line also died after subsequent exposure to 13 degrees day and 8 degrees night temperatures. The temperature-sensitive lethality was transmitted only through the female parent. When seedlings were grown at normal 26 degrees day and 20 degrees night temperatures, mutant selfs, normal selfs, and reciprocal F(1) hybrids were indistinguishable.

Published

1973