Hui Z. Mao scite author profile

In flowering plants, pollen formation depends on the differentiation and interaction of two cell types in the anther: the reproductive cells, called microsporocytes, and somatic cells that form the tapetum. The microsporocytes generate microspores, whereas the tapetal cells support the development of microspores into mature pollen grains. Despite their importance to plant reproduction, little is known about the underlying genetic mechanisms that regulate the differentiation and interaction of these highly specialized cells in the anther. Here, we report the identification and characterization of a novel TAPETUM DETERMINANT1 ( TPD1 ) gene that is required for the specialization of tapetal cells in the Arabidopsis anther. Analysis of the male-sterile mutant, tpd1 , showed that functional interruption of TPD1 caused the precursors of tapetal cells to differentiate and develop into microsporocytes instead of tapetum. As a results, extra microsporocytes were formed and tapetum was absent in developing tpd1 anthers. Molecular cloning of TPD1 revealed that it encodes a small protein of 176 amino acids. In addition, tpd1 was phenotypically similar to excess microsporocytes1/extra sporogenous cells ( ems1 / exs ) single and tpd1 ems1/exs double mutants. These data suggest that the TPD1 product plays an important role in the differentiation of tapetal cells, possibly in coordination with the EMS1/EXS gene product, a Leu-rich repeat receptor protein kinase.

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Mutations in LMF1 cause combined lipase deficiency and severe hypertriglyceridemia

Péterfy

et al. 2007

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Hypertriglyceridemia is a hallmark of many disorders, including metabolic syndrome, diabetes, atherosclerosis and obesity. A well-known cause is the deficiency of lipoprotein lipase (LPL), a key enzyme in plasma triglyceride hydrolysis. Mice carrying the combined lipase deficiency (cld) mutation show severe hypertriglyceridemia owing to a decrease in the activity of LPL and a related enzyme, hepatic lipase (HL), caused by impaired maturation of nascent LPL and hepatic lipase polypeptides in the endoplasmic reticulum (ER). Here we identify the gene containing the cld mutation as Tmem112 and rename it Lmf1 (Lipase maturation factor 1). Lmf1 encodes a transmembrane protein with an evolutionarily conserved domain of unknown function that localizes to the ER. A human subject homozygous for a deleterious mutation in LMF1 also shows combined lipase deficiency with concomitant hypertriglyceridemia and associated disorders. Thus, through its profound effect on lipase activity, LMF1 emerges as an important candidate gene in hypertriglyceridemia.

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An Intercalated and Thermally Stable FAPY Adduct of Aflatoxin B₁ in a DNA Duplex: Structural Refinement from ¹H NMR

et al. 1998

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The structure of a formamidopyrimidine (FAPY) adduct arising from imidazole ring opening of the initially formed trans-8, 9-dihydro-8-(N7-guanyl)-9-hydroxyaflatoxin B1 adduct under basic conditions and positioned in the 5'-d(CTATFAPYGATTCA)-3'*5'-d(TGAATCATAG)-3' oligodeoxynucleotide was determined. The FAPY adduct may be a major progenitor of aflatoxin B1-induced mutations in DNA. The freshly prepared sample showed biphasic melting, with transitions at 28 and 56 degreesC. NMR initially showed multiple subspectra. Over a period of several days at 4 degreesC, the sample converted to a single species with a Tm of 56 degreesC, 15 degrees C greater than the unmodified duplex. The deoxyribose was in the beta configuration about the anomeric carbon, evidenced by NOEs between FAPYG5 H3', H2', H2", and H1'. FAPY formation resulted in the loss of the guanine H8 proton, and the introduction of the formyl proton, which showed NOEs to FAPYG5 H1' and A6 N6Ha. A total of 31 NOEs from AFB1 to DNA protons were observed, mostly to the 5'-neighboring base, T4 in the modified strand. Sequential NOEs were interrupted between T4 and FAPYG5 in the modified strand, between C16 and A17 in the complementary strand, and between T4 N3H and FAPYG5 N1H. An NOE between FAPYG5 N1H and C16 N4H showed intact hydrogen bonding at FAPYG5*C16. Upfield chemical shifts were observed for T4 H6 and A17 H8. Molecular dynamics calculations converged with pairwise rmsd differences of <0.9 A. The sixth root residual was 8.7 x 10(-2). The AFB1 moiety intercalated from the major groove between FAPYG5 and T4*A17, and stacked with T4 and FAPYG5 and partially stacked with A17. The base step between T4*A17 and FAPYG5*C16 was increased from 3.4 to 7 A. The duplex unwound by about 15 degrees. The FAPY formyl group was positioned to form a hydrogen bond with A6 N6Ha. Strong stacking involving the AFB1 moiety, and this hydrogen bond explains the thermal stabilization of four base pairs by this adduct, and may be a significant factor in its processing.

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Duplex DNA catalyzes the chemical rearrangement of a malondialdehyde deoxyguanosine adduct

Mao

Schnetz-Boutaud

Weisenseel

et al. 1999

Proc. Natl. Acad. Sci. U.S.A.

135

153

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The primary DNA lesion induced by malondialdehyde, a byproduct of lipid peroxidation and prostaglandin synthesis, is 3-(2'-deoxy-beta-D-erythro-pentofuranosyl)-pyrimido[1, 2-a]purin-10(3H)-one (M1G). When placed opposite cytosine (underlined) at neutral pH in either the d(GGTMTCCG).d(CGGACACC) or d(ATCGCMCGGCATG). d(CATGCCGCGCGAT) duplexes, M1G spontaneously and quantitatively converts to the ring-opened derivative N2-(3-oxo-1-propenyl)-dG. Ring-opening is reversible on thermal denaturation. Ring-opening does not occur at neutral pH in single-stranded oligodeoxynucleotides or when T is placed opposite to M1G in a duplex. The presence of a complementary cytosine is not required to stabilize N2-(3-oxo-1-propenyl)-dG in duplex DNA at neutral pH. When N2-(3-oxo-1-propenyl)-dG is placed opposite to thymine in a duplex, it does not revert to M1G. A mechanism for the conversion of M1G to N2-(3-oxo-1-propenyl)-dG is proposed in which the exocyclic amino group of the complementary cytosine attacks the C8 position of the M1G exocyclic ring and facilitates ring opening via formation of a transient Schiff base. Addition of water to the Schiff base regenerates the catalytic cytosine and generates N2-(3-oxo-1-propenyl)-dG. These results document the ability of duplex DNA to catalyze the transformation of one adduct into another, which may have important consequences for mutagenesis and repair.

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Surface transfer hole doping of epitaxial graphene using MoO3 thin film

et al. 2010

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Synchrotron-based in situ photoelectron spectroscopy investigations demonstrate effective surface transfer p-type doping of epitaxial graphene (EG) thermally grown on 4H–SiC(0001) via the deposition of MoO3 thin film on top. The large work function difference between EG and MoO3 facilitates electron transfer from EG to the MoO3 thin film. This leads to hole accumulation in the EG layer with an areal hole density of about 1.0×1013 cm−2, and places the Fermi level 0.38 eV below the graphene Dirac point.

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Oxygen-Derived Free Radicals Contribute to Baroreceptor Dysfunction in Atherosclerotic Rabbits

Mao

Abboud

et al. 1996

Circulation Research

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The goal of the present study was to determine whether oxygen-derived free radicals contribute to baroreceptor dysfunction in atherosclerosis. Baroreceptor activity was measured from the carotid sinus nerve during pressure ramps in isolated carotid sinuses of anesthetized rabbits. Rabbits fed a 0.5% to 1.0% cholesterol diet for 7.9 +/- 0.4 months (mean +/- SE; range, 5.5 to 10) developed atherosclerotic lesions in the carotid sinuses. Maximum baroreceptor activity measured at 140 mm Hg and the slope of the pressure-activity curve were reduced in atherosclerotic (n = 15) compared with normal (n = 13) rabbits (425 +/- 34 versus 721 +/- 30 spikes per second and 6.2 +/- 0.6 versus 10.8 +/- 0.8 spikes per second per mm Hg, respectively, P < .05). The level of activity was inversely related to plasma cholesterol concentration (r = .86, P < .001) and total cholesterol load (plasma concentration x duration of diet, r = .92). Mean arterial pressure was normal in both groups. Exposure of the carotid sinus to the free-radical scavengers superoxide dismutase (SOD) and catalase significantly increased maximum baroreceptor activity by 25 +/- 4% in atherosclerotic rabbits (n = 6) but caused only small and irreversible changes in activity in normal rabbits (n = 8). Catalase alone but not SOD also increased baroreceptor activity in atherosclerotic rabbits (n = 7). Exposure of the carotid sinus of normal rabbits to exogenous free radicals generated from the reaction between xanthine and xanthine oxidase inhibited baroreceptor activity in a dose-dependent and reversible manner (n = 8, P < .05). The inhibition of activity was attenuated by SOD and catalase but was not attenuated by the inhibitor of hydroxyl radical formation, deferoxamine. Neither restoration of baroreceptor activity in atherosclerotic rabbits by catalase nor inhibition of activity by xanthine/xanthine oxidase could be explained by changes in the carotid pressure-diameter relation or prostacyclin formation. These results indicate that oxidant stress inhibits baroreceptor activity and that endogenous oxyradicals produced in atherosclerotic carotid sinuses contribute to baroreceptor dysfunction.

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Mechanism of the Fermi level pinning at organic donor–acceptor heterojunction interfaces

Mao

Bussolotti

et al. 2011

Organic Electronics

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Hui Z. Mao

Graphene: Promises, Facts, Opportunities, and Challenges in Nanomedicine

TAPETUM DETERMINANT1 Is Required for Cell Specialization in the Arabidopsis Anther

Mutations in LMF1 cause combined lipase deficiency and severe hypertriglyceridemia

An Intercalated and Thermally Stable FAPY Adduct of Aflatoxin B₁ in a DNA Duplex: Structural Refinement from ¹H NMR

Duplex DNA catalyzes the chemical rearrangement of a malondialdehyde deoxyguanosine adduct

Surface transfer hole doping of epitaxial graphene using MoO3 thin film

Oxygen-Derived Free Radicals Contribute to Baroreceptor Dysfunction in Atherosclerotic Rabbits

Mechanism of the Fermi level pinning at organic donor–acceptor heterojunction interfaces

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Hui Z. Mao

Graphene: Promises, Facts, Opportunities, and Challenges in Nanomedicine

TAPETUM DETERMINANT1 Is Required for Cell Specialization in the Arabidopsis Anther

Mutations in LMF1 cause combined lipase deficiency and severe hypertriglyceridemia

An Intercalated and Thermally Stable FAPY Adduct of Aflatoxin B1 in a DNA Duplex: Structural Refinement from 1H NMR

Duplex DNA catalyzes the chemical rearrangement of a malondialdehyde deoxyguanosine adduct

Surface transfer hole doping of epitaxial graphene using MoO3 thin film

Oxygen-Derived Free Radicals Contribute to Baroreceptor Dysfunction in Atherosclerotic Rabbits

Mechanism of the Fermi level pinning at organic donor–acceptor heterojunction interfaces

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Resources

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An Intercalated and Thermally Stable FAPY Adduct of Aflatoxin B₁ in a DNA Duplex: Structural Refinement from ¹H NMR