Dimerization specificity of Arabidopsis MADS domain homeotic proteins APETALA1, APETALA3, PISTILLATA, and AGAMOUS.

The MADS domain homeotic proteins APETALA1 (AP1), APETALA3 (AP3), PISTILLATA (PI), and AGAMOUS (AG) act in a combinatorial manner to specify the identity of Arabidopsis floral organs. The molecular basis for this combinatorial mode of action was investigated. Immunoprecipitation experiments indicate that all four proteins are capable of interacting with each other. However, these proteins exhibit "partner-specificity" for the formation of DNA-binding dimers; only AP1 homodimers, AG homodimers, and AP3/PI heterodimers are capable of binding to CArG-box sequences. Both the AP3/PI heterodimer and the AP1 or AG homodimers are formed when the three corresponding proteins are present together. The use of chimeric proteins formed by domain swapping indicates that the L region (which follows the MADS box) constitutes a key molecular determinant for the selective formation of DNA-binding dimers. The implications of these results for the ABC genetic model of flower development are discussed.

Organ-specific and Agamous-regulated expression and glycosylation of a pollen tube growth-promoting protein.

Transmitting tissue-specific (TTS) protein is a pollen tube growth-promoting and attracting glycoprotein located in the stylar transmitting tissue extracellular matrix of the pistil of tobacco. The TTS protein backbones have a deduced molecular mass of about 28 kDa, whereas the glycosylated stylar TTS proteins have apparent molecular masses ranging between 50 and 100 kDa. TTS mRNAs and proteins are ectopically produced in transgenic tobacco plants that express either a cauliflower mosaic virus (CaMV) 35S promoter-TTS2 transgene or a CaMV 35S-promoter-NAG1 (NAG1 = Nicotiana tabacum Agamous gene) transgene. However, the patterns of TTS mRNA and protein accumulation and the quality of the TTS proteins produced are different in these two types of transgenic plants. In 35S-TTS transgenic plants, TTS mRNAs and proteins accumulate constitutively in vegetative and floral tissues. However, the ectopically expressed TTS proteins in these transgenic plants accumulate as underglycosylated protein species with apparent molecular masses between 30 and 50 kDa. This indicates that the capacity to produce highly glycosylated TTS proteins is restricted to the stylar transmitting tissue. In 35S-NAG transgenic plants, NAG1 mRNAs accumulate constitutively in vegetative and floral tissues, and TTS mRNAs are induced in the sepals of these plants. Moreover, highly glycosylated TTS proteins in the 50- to 100-kDa molecular mass range accumulate in the sepals of these transgenic, 35S-NAG plants. These results show that the tobacco NAGI gene, together with other yet unidentified regulatory factors, control the expression of TTS genes and the cellular capacity to glycosylate TTS proteins, which are normally expressed very late in the pistil developmental pathway and function in the final stage of floral development. The sepals in the transgenic 35S-NAG plants also support efficient pollen germination and tube growth, similar to what normally occurs in the pistil, and this ability correlates with the accumulation of the highest levels of the 50- to 100-kDa glycosylated TTS proteins.

Mapping the protein regions responsible for the functional specificities of the Arabidopsis MADS domain organ-identity proteins.

The Arabidopsis MADS domain proteins AP1, AP3, PI, and AG specify floral organ identity. All of these proteins contain a MADS domain required for DNA binding and dimerization; a region termed L (linker between MADS domain and K domain), which plays an important role in dimerization specificity; the K domain, named for its similarity to the coiled-coil domain of keratin; and a C-terminal region of unknown function. To determine which regions of these proteins are responsible for their abilities to specify different organs, we have made a number of chimeric MADS box genes. The in vivo function of these chimeric genes was investigated by ectopic expression in transgenic Arabidopsis plants. The four proteins fall into two classes on the basis of regions responsible for their functional specificities. The L region and K domain define the functional specificities of AP3 and PI, while the MADS domain and L region define the functional specificities of AP1 and AG.

The terminal Paleozoic fungal event: evidence of terrestrial ecosystem destabilization and collapse.

Because of its prominent role in global biomass storage, land vegetation is the most obvious biota to be investigated for records of dramatic ecologic crisis in Earth history. There is accumulating evidence that, throughout the world, sedimentary organic matter preserved in latest Permian deposits is characterized by unparalleled abundances of fungal remains, irrespective of depositional environment (marine, lacustrine, fluviatile), floral provinciality, and climatic zonation. This fungal event can be considered to reflect excessive dieback of arboreous vegetation, effecting destabilization and subsequent collapse of terrestrial ecosystems with concomitant loss of standing biomass. Such a scenario is in harmony with predictions that the Permian-Triassic ecologic crisis was triggered by the effects of severe changes in atmospheric chemistry arising from the rapid eruption of the Siberian Traps flood basalts.

Seed and vascular expression of a high-affinity transporter for cationic amino acids in Arabidopsis.

In most plants amino acids represent the major transport form for organic nitrogen. A sensitive selection system in yeast mutants has allowed identification of a previously unidentified amino acid transporter in Arabidopsis. AAT1 encodes a hydrophobic membrane protein with 14 membrane-spanning regions and shares homologies with the ecotropic murine leukemia virus receptor, a bifunctional protein serving also as a cationic amino acid transporter in mammals. When expressed in yeast, AAT1 mediates high-affinity transport of basic amino acids, but to a lower extent also recognizes acidic and neutral amino acids. AAT1-mediated histidine transport is sensitive to protonophores and occurs against a concentration gradient, indicating that AAT1 may function as a proton symporter. AAT1 is specifically expressed in major veins of leaves and roots and in various floral tissues--i.e., and developing seeds.

Multiple origins of the yucca-yucca moth association.

The association of species of yucca and their pollinating moths is considered one of the two classic cases of obligate mutualism between floral hosts and their pollinators. The system involves the active collection of pollen by females of two prodoxid moth genera and the subsequent purposeful placement of the pollen on conspecific stigmas of species of Yucca. Yuccas essentially depend on the moths for pollination and the moths require Yucca ovaries for oviposition. Because of the specificity involved, it has been assumed that the association arose once, although it has been suggested that within the prodoxid moths as a whole, pollinators have arisen from seed predators more than once. We show, by using phylogenies generated from three molecular data sets, that the supposed restriction of the yucca moths and their allies to the Agavaceae is an artifact caused by an incorrect circumscription of this family. In addition we provide evidence that Yucca is not monophyletic, leading to the conclusion that the modern Yucca-yucca moth relationship developed independently more than once by colonization of a new host.

Alterações em adrenais de cães relacionadas à morte súbita ou agônica: análise morfométrica, histopatológica, imunoistoquímica e correlação com os níveis de adrenalina e noradrenalina na medula adrenal

A necropsia é essencial para a identificação da causa de morte e dos processos que culminaram no óbito do animal. O presente estudo visou à pesquisa da real ocorrência de morte súbita e inesperada em cães submetidos à necropsia, e à determinação da discrepância entre as suspeitas dos proprietários em relação ao estado de saúde prévio e à causa de morte de seus cães, quando comparadas às conclusões necroscópicas. Este trabalho também focou nas alterações morfológicas e funcionais nas glândulas adrenais de cães necropsiados, a fim de se estudar a aplicação de possíveis marcadores da resposta adrenal ao estresse sofrido pelo animal na iminência do óbito. Foram utilizados os dados de 82 cães necropsiados na FMVZ-USP para análise da ocorrência real de morte súbita nestes animais. As alterações morfológicas nas adrenais de 46 cães necropsiados foram avaliadas através de análises morfométricas e histopatológicas. Também foram avaliados os índices de proliferação e apoptose nas células do córtex adrenal em relação à causa de morte do animal, através da marcação imunoistoquímica para o antígeno nuclear de proliferação celular (PCNA) e para BAX e Bcl-2, proteínas envolvidas na regulação da apoptose. A análise das alterações funcionais sofridas pelas adrenais focou na quantificação das concentrações das catecolaminas adrenalina e noradrenalina na medula adrenal dos cães por cromatografia líquida de alta eficiência com detecção eletroquímica (CLAE-DE). Dentre os resultados encontrados, a suspeita do proprietário de que seu cão sofreu uma morte súbita e inesperada é muito maior do que a real ocorrência deste tipo de morte em cães, sendo o óbito por decorrência de complicações de doenças muito mais frequente. As características morfométricas das adrenais dos cães apresentaram maior influência pelo peso corpóreo do animal e pela presença ou ausência de hiperplasia cortical do que pela associação com doenças crônicas ou condições agudas. Cães que vieram a óbito em decorrência de complicações de doenças crônicas exibiram fibrose em região corticomedular e focos de infiltrado inflamatório, ausentes nos animais com morte súbita ou doenças agudas, além de maior ocorrência de hiperplasia adrenocortical. Cães que sofriam de alterações cardíacas crônicas apresentaram alterações histopatológicas significativas mais marcantes em suas adrenais, como necrose, fibrose e depleção vacuolar cortical. Por outro lado, a congestão severa nas adrenais foi um achado mais frequente nos animais previamente saudáveis que sofreram morte súbita ou que vieram a óbito por doenças agudas. A avaliação dos índices de proliferação celular e apoptose no córtex das adrenais através da marcação imunoistoquímica para PCNA e BAX e Bcl-2, respectivamente, não apresentou potencial relevante para o estudo dos efeitos do estresse por doenças crônicas sobre as adrenais de cães. As concentrações de adrenalina e noradrenalina na medula adrenal se mostraram muito maiores em cães machos quando comparados às fêmeas. Os achados deste estudo podem auxiliar nas conclusões da necropsia, sendo especialmente relevantes em casos médico-legais, nos quais todos os achados possíveis devem ser relatados e analisados a fim de se prover um diagnóstico preciso, seguro e incontroverso

Otimização dos valores de referência da 17OH-progesterona neonatal de acordo com o peso ao nascimento no programa de triagem neonatal da APAE DE SÃO PAULO

Introdução: A Hiperplasia Adrenal Congênita por deficiência da 21-hidroxilase (HAC) é uma doença com mortalidade neonatal elevada sendo elegível para programas públicos de Triagem Neonatal (TN). A HAC é causada por mutações no gene CYP21A2, as quais acarretam diferentes comprometimentos da atividade enzimática e resultam em espectro amplo de manifestações clínicas. Apesar da eficiência da TN para diagnosticar os casos graves, a taxa elevada de resultados falso-positivos (RFP), principalmente relacionados à prematuridade, é um dos maiores problemas. Porém, resultados falso-negativos também podem ocorrer em coletas antes de 24 horas de vida. No Brasil, a coleta da amostra neonatal difere entre os municípios, podendo ser no terceiro dia de vida como após. Objetivo: Avaliar se os valores da 17OH-progesterona neonatal (N17OHP) das coletas no terceiro dia de vida diferem significativamente das coletas a partir do quarto dia. Determinar qual percentil (99,5 ou 99,8) pode ser utilizado como valor de corte para a N17OHP, de acordo com o peso ao nascimento e tempo de vida na coleta, a fim de que proporcione taxa menor de RFP. Métodos: Foi avaliada, retrospectivamente, a N17OHP de 271.810 recém-nascidos (Rns) de acordo com o tempo de vida na coleta (G1: 48 - = 72h) e peso ao nascimento (P1: <= 1.500g, P2: 1.501-2.000g, P3: 2.001-2.500g e P4: >= 2.500g), pelo método imunofluorimétrico. Testes com resultados alterados foram confirmados no soro por Espectrometria de Massas em Tandem - LC-MS/MS. Rns afetados e/ou assintomáticos e com valores persistentemente elevados de 17OHP sérica foram submetidos ao estudo molécular, sequenciamento do gene CYP21A2. Resultados: os valores da N17OHP no grupo G1 foram significativamente menores do que em G2 em todos os grupos de peso (p < 0.001). A taxa de RFP em G1 e G2 foi de 0,2% para o percentil 99,8 e de 0,5% para o percentil 99,5 em ambos os grupos. O percentil 99,8 da N17OHP foi o melhor valor de corte para distinguir os Rns não afetados dos afetados, cujos valores são: G1 (P1: 120; P2: 71; P3: 39 e P4: 20 ng /mL) e em G2 (P1: 173; P2: 90; P3: 66 e P4: 25 ng/mL). Vinte e seis Rns do grupo G1 apresentaram a forma perdedora de sal (PS) (13H e 13M), nestes a N17OHP variou de 31 a 524 ng/mL e vinte Rns no grupo G2 (8H e 12M), nestes a N17OHP variou de 53 a 736 ng/mL. Para ambos os grupos foram encontrados três Rns com a forma virilizante simples (1H e 2M) e os valores da N17OHP variaram de 36 a 51 ng/mL. Resultados falso-negativos não foram relatados. O valor preditivo positivo (VPP) no teste do papel filtro foi de 5,6% e 14,1% nos grupos G1 e G2, respectivamente, ao se utilizar o percentil 99,8, e de 2,3% e 7% nos grupos G1 e G2 ao se utilizar o percentil 99,5. Dentre os casos com TN alterada (RFP), 29 deles também apresentaram 17OHP sérica elevada quando dosada por LC-MS/MS. Os casos assintomáticos foram acompanhados até normalização da 17OHP sérica e/ou submetidos ao estudo molecular, que identificou dois Rns com genótipo que prediz a forma não clássica. Conclusão: a melhor estratégia para otimização do diagnóstico da HAC na triagem neonatal é se padronizar valores de corte da N17OHP em dois grupos de acordo com o tempo de vida na coleta (antes e depois de 72 horas), subdivididos em quatro grupos de peso. A utilização dos valores de corte do percentil 99,8 se mantém eficaz no diagnóstico da HAC-21OH na triagem neonatal, reduzindo de forma significativa a taxa de RFP, sem perda do diagnóstico da forma PS

An oration, Thaddeus M Harris A.M. now minister of Dorchester, 1790

This small paper notebook contains a twenty-one-page handwritten oration on learned societies delivered by Phi Beta Kappa member Thaddeus Mason Harris on September 1, 1790. The oration is followed by five pages of "notes and illustrations" on the text. Title transcribed from title page. Item bound in blue-and-white floral wallpaper covers.

An oration delivered at the request of the PBK society, at Cambridge. By Thomas W. Hooper, 1790

This small paper notebook contains a sixteen-page handwritten copy of an oration on "amiable and useful virtues" delivered by Phi Beta Kappa member Thomas W. Hooper on September 1, 1790. Title transcribed from the first page of text. Item bound in blue-and-white floral wallpaper covers.

An oration, 1790

This small paper notebook contains a twenty-one-page handwritten oration on learned societies delivered by Phi Beta Kappa member Thaddeus Mason Harris (1768-1842; Harvard AB 1787) during the anniversary meeting of the Alpha Chapter at Harvard University on September 1, 1790. The oration is followed by five pages of "notes and illustrations" on the text.

An oration delivered at the request of the PBK society, at Cambridge. 1790

This small paper notebook contains a sixteen-page handwritten copy of an oration on "amiable and useful virtues" delivered by Phi Beta Kappa member Thomas W. Hooper (1771-1816; Harvard AB 1789) during the anniversary meeting of the Alpha Chapter at Harvard University on September 1, 1790.

New York Bay and Harbor, and vicinity, 1844 (Image 6 of 6) (Raster Image)

This layer is a georeferenced raster image of the historic paper map entitled: Map of New-York Bay and Harbor and the environs : sheet no. 6, founded upon a trigonometrical survey under the direction of F.R. Hassler, superintendent of the Survey of the Coast of the United States ; triangulation by James Ferguson and Edmund Blunt, assistants ; the hydrography under the direction of Thomas R. Gedney, lieutenant U.S. Navy ; the topography by C. Renard and T.A. Jenkins assists. It was published by Survey of the Coast of the United States in 1844-1845. Scale 1:30,000. This layer is image 6 of 6 total images of the six sheet source map, representing the southwest portion of the map. The image inside the map neatline is georeferenced to the surface of the earth and fit to the Universal Transverse Mercator (UTM) Zone 18N NAD83 projection. All map collar and inset information is also available as part of the raster image, including any inset maps, profiles, statistical tables, directories, text, illustrations, or other information associated with the principal map. This map shows coastal features such as lighthouses, buoys, beacons, rocks, channels, points, coves, islands, bottom soil types, wharves, and more. Includes also selected land features such as roads, drainage, land cover, forts, selected buildings, towns, and more. Relief shown by hachures. Depths are shown by soundings and shading. Includes text, table of currents and stations, notes, sailing directions, 4 coastal panoramas and 2 views of Sandy Hook Light. This layer is part of a selection of digitally scanned and georeferenced historic maps from The Harvard Map Collection as part of the Imaging the Urban Environment project. Maps selected for this project represent major urban areas and cities of the world, at various time periods. These maps typically portray both natural and manmade features at a large scale. The selection represents a range of regions, originators, ground condition dates, scales, and purposes.

New York, N.Y. and vicinity, 1899 (Raster Image)

This layer is a georeferenced raster image of the historic paper map entitled: New York City and vicinity, H.M. Wilson, geographer in charge ; triangulation by U.S. Coast and Geodetic Survey ; topography by S.H. Bodfish ... [et al. and] U.S. Coast and Geodetic Survey, N.Y. City Government and the Geological Survey of New Jersey. It was published by U.S.G.S. in 1899. Scale 1:62,500. The image inside the map neatline is georeferenced to the surface of the earth and fit to the Universal Transverse Mercator (UTM) Zone 18N NAD83 projection. All map collar and inset information is also available as part of the raster image, including any inset maps, profiles, statistical tables, directories, text, illustrations, index maps, legends, or other information associated with the principal map. This map shows features such as roads, railroads, drainage, cities and towns, villages, forts, cemeteries, aqueducts, boundaries, and more. Relief is shown with standard contour intervals of 20 feet. This layer is part of a selection of digitally scanned and georeferenced historic maps from The Harvard Map Collection as part of the Imaging the Urban Environment project. Maps selected for this project represent major urban areas and cities of the world, at various time periods. These maps typically portray both natural and manmade features at a large scale. The selection represents a range of regions, originators, ground condition dates, scales, and purposes.

New York, N.Y. and vicinity, 1961 : Hempstead, N.Y. (8 Sheet Set) (Raster Image)

This layer is a georeferenced raster image of the United States Geological Survey 7.5 minute topographic sheet map entitled: New York and vicinity : Hempstead, N.Y., 1955. It is part of an 8 sheet map set covering the metropolitan New York City area. It was published in 1961. Scale 1:24,000. The source map was prepared by the Geological Survey from 1:24,000-scale maps of Freeport 1955, Lynbrook, Lawrence, and Jones Inlet 1954 7.5 minute quadrangles. All quadrangles except Jones Inlet were previously compiled by the Army Map Service. Culture revised by the Geological Survey. Hydrography compiled from USC&GS charts 579A (1953), 579B (1953), 542 (1955) and 1215 (1947). The image inside the map neatline is georeferenced to the surface of the earth and fit to the Universal Transverse Mercator (UTM) Zone 18N NAD27 projection. All map collar and inset information is also available as part of the raster image, including any inset maps, profiles, statistical tables, directories, text, illustrations, index maps, legends, or other information associated with the principal map. USGS maps are typical topographic maps portraying both natural and manmade features. They show and name works of nature, such as mountains, valleys, lakes, rivers, vegetation, etc. They also identify the principal works of humans, such as roads, railroads, boundaries, transmission lines, major buildings, etc. Relief is shown with standard contour intervals of 10 and 20 feet; depths are shown with contours and soundings. Please pay close attention to map collar information on projections, spheroid, sources, dates, and keys to grid numbering and other numbers which appear inside the neatline. This layer is part of a selection of digitally scanned and georeferenced historic maps from The Harvard Map Collection as part of the Imaging the Urban Environment project. Maps selected for this project represent major urban areas and cities of the world, at various time periods. These maps typically portray both natural and manmade features at a large scale. The selection represents a range of regions, originators, ground condition dates, scales, and purposes.