Amino acid biosynthesis in plants: Approaching an understanding at the molecular level

Summary The genes encoding GS and EPSP synthase have already been cloned. Clones containing portions of the genes encoding aspartate amino transferase and asparagine synthetase tentatively have been identified by this and other laboratories. It is certain that many other genes encoding other important enzymes involved in amino acid biosynthesis will also be identified in the near future. It is evident that new techniques for the separation of proteins will greatly aid in identifying low abundance genes more rapidly and efficiently. Micro techniques need to be further developed and the necessary equipment made available to laboratories. Hopefully the cost of the required equipment will decrease and commercial enterprises will offer more contract services for work requiring the more expensive equipment. Graduate training in advanced techniques of separating proteins at high resolutions should be encour-aged expanded so that our future scientists are well versed in protein biochemistry as well as in techniques of molecular biology.     

Photoassimilate-transport characteristics of nonchlorophyllous and green tissue in variegated leaves of Coleus blumei Benth

The nonchlorophyllous (albino) tissue of mature C. blumei leaves is a sink for photoassimilate. Transport from the green to the albino region of the same leaf was inhibited by cold and anoxia. When the green tissue of mature leaves was removed, the remaining albino portion imported labeled translocate from other mature leaves in the phloem. Photoassimilate unloading in the albino region of mature leaves was studied by quantitative autoradiography. The unloading was inhibited by cold but not by anoxia. No labeled photoassimilate could be detected in the free space of mature albino tissue by compartmental efflux analysis as phloem unloading proceeded in a N₂ atmosphere, indicating that unloading, may occur by a symplastic pathway as it apparently does in sink leaves of other species. The minor veins of mature albino leaf tissue did not accumulate exogenous [¹⁴C]sucrose. Minor veins of green tissue in the same leaves accumulated [¹⁴C]sucrose but, in contrast to other species studied to date, this accumulation was insensitive to the inhibitor p-chloromercuribenzensulfonic acid (PCMBS).In its capacity to import and unload photoassimilate, and in the inability, of the minor veins to accumulate exogenous sucrose, the albino region of the mature C. blumei lamina differs from mature albino tobacco leaves and darkened mature leaves of other species. This, together with evidence indicating that phloem loading in C. blumei and other species may occur by different routes and with different sensitivity to PCMBS, indicates that the mechanism of transfer of photoassimilates between veins and surrounding tissues, and the mechanism of the sink-source transition, may not be the same in the leaves of all species. It is speculated that the unusual properties of the C. blumei leaf may be a consequence of the presence, in the minor veins, of intermediary cells, large companion cells connected to the bundle sheath by abundant plasmodesmata.Abbreviation PCMBS p-chloromercuribenzenesulfonic acid     

Is hypothermia necessary for the winter survival of the GoldcrestRegulus regulus?

Summary The Goldcrest is an interesting species for studies of physiological and behavioural adaptions to cold, since it is the smallest species present in Europe. Although many small birds have to lower their metabolic rate and enter hypothermia in order to make their energy reserves last throughout the night, our measurements of oxygen consumption of five Goldcrests suggest that these birds may be able to balance their nocturnal energy budget during the winter at normothermic body temperatures, provided that the available food supply is adequate. These results are in agreement with those of another small bird, the Common Bushtit, which, like the Goldcrest, reduce nocturnal heat loss by contact roosting. Since the energy saved by hypothermia decreases with decreasing ambient temperature and also decreasing body weight, this strategy might not be such an advantage for the smallest birds living at very low ambient temperatures.

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Zusammenfassung Am Wintergoldhähnchen als dem kleinsten europäischen Vogel interessieren besonders seine physiologischen und Verhaltens-Anpassungen an niedere Temperaturen. Viele Kleinvögel senken ihre Stoffwechselaktivität und verfallen in Hypothermie, um mit ihren Energie-Reserven während der langen Winternächte auszukommen. Unsere Untersuchungen über den O₂-Verbrauch von 5 Wintergoldhähnchen legen jedoch nahe, daß sich das nächtliche Energie-Budget auch im Tiefwinter auf Normalniveau bewegt und daß sie bei ausreichendem Nahrungsangebot ihre normale Körpertemperatur auch nachts beibehalten. Ähnliche Befunde liegen von den vergleichbaren kleinen amerikanischen Buschmeisen vor, die wie Goldhähnchen den nächtlichen Wärmeverlust durch Schlafen auf engem Gefiederkontakt reduzieren. Es ist anzunehmen, daß die Hypothermie als Überwinterungsstrategie für unsere kleinsten Vögel garnicht so vorteilhaft wäre: Die durch Hypothermie eingesparte Energie geht mit abnehmender Umgebungstemperatur und mit geringerer Körpergröße wieder verloren.

     

Effect of transbilayer phospholipid distribution on erythrocyte fusion

Phospholipid packing has been suggested as a relevant variable in the control of membrane fusion events. To test this possibility in a model system, a comparison was made of the fusability of erythrocytes with a normal asymmetric transbilayer distribution of plasma membrane phospholipids (tightly packed exterior lipids) and erythrocytes with a symmetric transbilayer distribution of phospholipids (more loosely packed exterior lipids), using polyethylene glycol as fusogen. Not only were lipid-symmetric cells more readily fused, but fusions of mixtures of lipid-symmetric and lipid-asymmetric cells indicated that both fusing partners must have a symmetric distribution for fusion to be enhanced. Lipid-symmetric cells may fuse more readily because loose packing of the exterior lipids enhances hydrophobic interactions between cells. Alternatively, enhanced membrane fluidity may facilitate intramembranous particle clustering, previously implicated as a potentiator of fusion. Finally, exposure of phosphatidylserine on the surface of lipid-symmetric erythrocytes may be responsible for their enhanced fusion.     

Oenothera chloroplast DNA polymorphisms associated with plastome mutator activity

Molecular Genetics and Genomics - Oenothera plants homozygous for a recessive allele at the plastome mutator (pm) locus show non-Mendelian mutation frequencies that are 1000-fold higher than...     

Determinants of site-specific recombination in the lambdoid coliphage HK022. An evolutionary change in specificity

The temperate bacteriophage HK022, like its relative lambda, inserts its chromosome into a specific site in the bacterial chromosome during lysogenization and excises it after induction. However, we find that the recombinational specificities of the two phages differ: they use different bacterial sites, and neither promotes efficient insertion or excision of the other phage chromosome. In order to determine the basis for this difference in specificity, we sequenced the HK022 elements that are involved in insertion and excision, and compared them to the corresponding lambda elements. The location, orientation, size and overall arrangement of the int and xis genes and the phage attachment sites are nearly identical in the two genomes, as is common for other functionally related elements in lambdoid phages. The Xis proteins of the two phages are functionally interchangeable, and their predicted amino acid sequences differ by but one residue. In contrast, the two Int proteins are not functionally interchangeable, and their sequences, although similar, differ at many positions. These sequence differences are not uniformly distributed: the amino-terminal 55 residues are completely conserved, but the remaining 302 show a pattern of differences interspersed with identities and conservative changes. These findings imply that the specificity difference between HK022 and lambda site-specific recombination is a consequence of the inability of the respective Int proteins to recognize pairs of heterologous attachment sites. The two phage attachment sites are remarkably similar, especially the two "arm" segments, which in lambda contain binding sites for Int, Xis and integration host factor. They are less similar in the segment between the two arms, which in lambda contains the points of recombinational strand exchange and a second class of binding site for Int protein (the "core-type" sites). The two bacterial attachment sites are quite different, although both have a short stretch of perfect homology with their respective phage partners at the points of strand exchange. We propose that the two Int proteins recognize similar or identical sites in the arms of their cognate attachment sites, and that differences in binding or action at the core-type sites is responsible for the divergent specificities. Genetic experiments and sequence comparisons suggest that both proteins recognize different but overlapping families of core-type sites, and that divergence in specificity has been achieved by an alternating succession of small, mutually compatible changes in protein and site.     

Calcium-ion catalysed nonenzymatic ATP synthesis from ADP and carbamylphosphate

Incubation of aqueous Ca²⁺, carbamylphosphate and ADP results in ATP formation with yields up to 20%. The dependence of the yield on the reaction parameters suggests that this transphosphorylation reaction proceeds heterogeneously on the surface of the calcium-carbamylphosphate precipitate