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Inorganic salts modify embryo sac development in sexual and aposporous Cenchrus ciliaris (1991)

Gounaris, E. K. ; Sherwood, R. T. ; Gounaris, I. ; [et al.]

Springer

Sexual plant reproduction 4 (1991), S. 188-192

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ISSN: 1432-2145

Keywords: Cenchrus ciliaris ; Megasporogenesis ; Megagametogenesis ; Apospory ; Apomixis ; Embryo sac development ; Salt stress

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Sexual and aposporously apomictic plants of buffelgrass (Cenchrus ciliaris L.) form megaspore tetrads. In sexual plants the chalazal megaspore develops into a single Polygonum type embryo sac. In aposporous plants the megaspores degenerate, and one or more un-reduced nucellar cells form Panicum type embryo sacs. Apospory is conditioned by gene A; the dominant allele of gene B is epistatic to A and preserves sexual reproduction. We recently observed that heavy application of (NH4)2SO4 to the soil induced multiple embryo sacs in a sexual line. Therefore we tested the effect of salt stress on embryo sac formation in sexual and aposporous genotypes. One molar solutions of CaCl2, NaCl, (NH4)2SO4, NH4Cl, NaNO3, or Na2SO4 were applied to the soil of greenhouse plants every day or two starting at the archespore stage. Some of the pistils in salt-treated plants of sexual genotypes AaBb, aaBb, and aabb showed features not seen in untreated controls: (1) multiple Polygonum type embryo sacs in 1%–7% of pistils depending upon the salt; (2) embryo sacs without antipodals (0%–7%); (3) embryo sacs protruding through the micropyle (1%–16%). Some pistils of salt-treated obligately aposporous lines, but not controls, developed Polygonum type embryo sacs (4%–13%) and protruding embryo sacs (0%–6%). There was no ion specificity for induction of abnormal features. We postulate that salt stress suppresses the developmental priority of nucellar embryo sacs over megaspores in aposporous lines and of the chalazal megaspore over other megaspores in all lines. This may permit megaspores of aposporous plants to form reduced Polygonum type gametophytes, and permit more than one megaspore to form reduced embryo sacs in all lines. Protrusion of sacs and failure of antipodal formation in reduced embryo sacs may be the consequence of uncoordinated expansion of the embryo sacs and surrounding tissue.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00190003

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Mass spectrometry of 2-substituted-1-keto-3-aryl-5H-imidazo-(1,5-a)-pyrroles derived from Schiff bases of N-terminal prolyl peptides (1974)

Hamilton, R. E. ; Patil, G. V. ; Jayasimhulu, K. ; [et al.]

Chichester : Wiley-Blackwell

Biological Mass Spectrometry 9 (1974), S. 211-220

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ISSN: 0030-493X

Keywords: Chemistry ; Analytical Chemistry and Spectroscopy

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Chemistry and Pharmacology

Notes: We have been able to extend the use of Schiff base derivatives in peptide sequencing to N-terminal prolyl peptides. Earlier studies from this laboratory revealed that certain aromatic Schiff bases of peptide esters gave electron-impact mass spectra with relatively intense molecular, sequence and internal fragment ions. We observed that the reaction of N-terminal prolyl peptide esters with 4-dimethylaminonaphthaldehyde, p-dimethylaminobenzaldehyde and 2-pyridinecarboxaldehyde gave cyclization products which were found to be 2-substituted-1-keto-3-aryl-5H-imidazo-[1,5-a]-pyrrole derivatives. The molecular ion and many of the expected cleavages were prominent in the mass spectra. Deuterium labeling at the α-carbon, amide nitrogen, or other exchangeable positions has been used in assigning the structure. It was also confirmed by the fragmentation pattern of the products derived by permethylation of the peptide derivative with tetramethylammonium hydroxide. Comparable cleavage patterns were seen among the N-terminal prolyl peptides examined. Proline amide gave the corresponding cyclized product. With the inclusion of N-terminal prolyl peptides in the list of peptides that we have examined, we may now prepare volatile derivatives of peptides containing any of the protein amino acids in two steps: esterification and treatment with the appropriate aromatic aldehyde.

Additional Material: 5 Ill.