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B3DN87, O80685, Q0WQK2, Q3EBC2, Q3EC11, Q500Z2, Q52T38, Q5M757, Q6DR03, Q7XA86, Q8L5Y5, Q8VYP5, Q8VYS8, Q93VV0, Q94C49, Q9C533, Q9FLM3, Q9LIE4, Q9LIH7, Q9M115, Q9M1K5, Q9M306, Q9SB58 developed
brenda
B3DN87, O80685, Q0WQK2, Q3EBC2, Q3EC11, Q500Z2, Q52T38, Q5M757, Q6DR03, Q7XA86, Q8L5Y5, Q8VYP5, Q8VYS8, Q93VV0, Q94C49, Q9C533, Q9FLM3, Q9LIE4, Q9LIH7, Q9M115, Q9M1K5, Q9M306, Q9SB58 rosette, young, developed and bolted
brenda
B3DN87, O80685, Q0WQK2, Q3EBC2, Q3EC11, Q500Z2, Q52T38, Q5M757, Q6DR03, Q7XA86, Q8L5Y5, Q8VYP5, Q8VYS8, Q93VV0, Q94C49, Q9C533, Q9FLM3, Q9LIE4, Q9LIH7, Q9M115, Q9M1K5, Q9M306, Q9SB58 -
brenda
B3DN87, O80685, Q0WQK2, Q3EBC2, Q3EC11, Q500Z2, Q52T38, Q5M757, Q6DR03, Q7XA86, Q8L5Y5, Q8VYP5, Q8VYS8, Q93VV0, Q94C49, Q9C533, Q9FLM3, Q9LIE4, Q9LIH7, Q9M115, Q9M1K5, Q9M306, Q9SB58 -
brenda
B3DN87, O80685, Q0WQK2, Q3EBC2, Q3EC11, Q500Z2, Q52T38, Q5M757, Q6DR03, Q7XA86, Q8L5Y5, Q8VYP5, Q8VYS8, Q93VV0, Q94C49, Q9C533, Q9FLM3, Q9LIE4, Q9LIH7, Q9M115, Q9M1K5, Q9M306, Q9SB58 -
brenda
-
brenda
expression of PAT15 is especially high in the leaf veins of 1- and 2-week-old seedlings
brenda
B3DN87, O80685, Q0WQK2, Q3EBC2, Q3EC11, Q500Z2, Q52T38, Q5M757, Q6DR03, Q7XA86, Q8L5Y5, Q8VYP5, Q8VYS8, Q93VV0, Q94C49, Q9C533, Q9FLM3, Q9LIE4, Q9LIH7, Q9M115, Q9M1K5, Q9M306, Q9SB58 -
brenda
-
brenda
-
brenda
B3DN87, O80685, Q0WQK2, Q3EBC2, Q3EC11, Q500Z2, Q52T38, Q5M757, Q6DR03, Q7XA86, Q8L5Y5, Q8VYP5, Q8VYS8, Q93VV0, Q94C49, Q9C533, Q9FLM3, Q9LIE4, Q9LIH7, Q9M115, Q9M1K5, Q9M306, Q9SB58 -
brenda
-
brenda
-
brenda
B3DN87, O80685, Q0WQK2, Q3EBC2, Q3EC11, Q500Z2, Q52T38, Q5M757, Q6DR03, Q7XA86, Q8L5Y5, Q8VYP5, Q8VYS8, Q93VV0, Q94C49, Q9C533, Q9FLM3, Q9LIE4, Q9LIH7, Q9M115, Q9M1K5, Q9M306, Q9SB58 developed
brenda
-
brenda
B3DN87, O80685, Q0WQK2, Q3EBC2, Q3EC11, Q500Z2, Q52T38, Q5M757, Q6DR03, Q7XA86, Q8L5Y5, Q8VYP5, Q8VYS8, Q93VV0, Q94C49, Q9C533, Q9FLM3, Q9LIE4, Q9LIH7, Q9M115, Q9M1K5, Q9M306, Q9SB58 rosette, young, developed and bolted
brenda
B3DN87, O80685, Q0WQK2, Q3EBC2, Q3EC11, Q500Z2, Q52T38, Q5M757, Q6DR03, Q7XA86, Q8L5Y5, Q8VYP5, Q8VYS8, Q93VV0, Q94C49, Q9C533, Q9FLM3, Q9LIE4, Q9LIH7, Q9M115, Q9M1K5, Q9M306, Q9SB58 -
brenda
expression of PAT15 is especially high in the leaf veins of 1- and 2-week-old seedlings
brenda
additional information
activity pattern of 24 PATs in the different tissues, overview
brenda
additional information
activity pattern of 24 PATs in the different tissues, overview
brenda
additional information
activity pattern of 24 PATs in the different tissues, overview
brenda
additional information
activity pattern of 24 PATs in the different tissues, overview
brenda
additional information
activity pattern of 24 PATs in the different tissues, overview
brenda
additional information
activity pattern of 24 PATs in the different tissues, overview
brenda
additional information
activity pattern of 24 PATs in the different tissues, overview
brenda
additional information
activity pattern of 24 PATs in the different tissues, overview
brenda
additional information
activity pattern of 24 PATs in the different tissues, overview
brenda
additional information
activity pattern of 24 PATs in the different tissues, overview
brenda
additional information
activity pattern of 24 PATs in the different tissues, overview
brenda
additional information
activity pattern of 24 PATs in the different tissues, overview
brenda
additional information
activity pattern of 24 PATs in the different tissues, overview
brenda
additional information
activity pattern of 24 PATs in the different tissues, overview
brenda
additional information
activity pattern of 24 PATs in the different tissues, overview
brenda
additional information
activity pattern of 24 PATs in the different tissues, overview
brenda
additional information
activity pattern of 24 PATs in the different tissues, overview
brenda
additional information
activity pattern of 24 PATs in the different tissues, overview
brenda
additional information
activity pattern of 24 PATs in the different tissues, overview
brenda
additional information
activity pattern of 24 PATs in the different tissues, overview
brenda
additional information
activity pattern of 24 PATs in the different tissues, overview
brenda
additional information
activity pattern of 24 PATs in the different tissues, overview
brenda
additional information
activity pattern of 24 PATs in the different tissues, overview
brenda
additional information
-
activity pattern of 24 PATs in the different tissues, overview
brenda
additional information
activity pattern of 24 PATs in the different tissues, overview
brenda
additional information
activity pattern of 24 PATs in the different tissues, overview
brenda
additional information
activity pattern of 24 PATs in the different tissues, overview
brenda
additional information
activity pattern of 24 PATs in the different tissues, overview
brenda
additional information
activity pattern of 24 PATs in the different tissues, overview
brenda
additional information
activity pattern of 24 PATs in the different tissues, overview
brenda
additional information
activity pattern of 24 PATs in the different tissues, overview
brenda
additional information
activity pattern of 24 PATs in the different tissues, overview
brenda
additional information
activity pattern of 24 PATs in the different tissues, overview
brenda
additional information
activity pattern of 24 PATs in the different tissues, overview
brenda
additional information
activity pattern of 24 PATs in the different tissues, overview
brenda
additional information
activity pattern of 24 PATs in the different tissues, overview
brenda
additional information
activity pattern of 24 PATs in the different tissues, overview
brenda
additional information
activity pattern of 24 PATs in the different tissues, overview
brenda
additional information
activity pattern of 24 PATs in the different tissues, overview
brenda
additional information
activity pattern of 24 PATs in the different tissues, overview
brenda
additional information
activity pattern of 24 PATs in the different tissues, overview
brenda
additional information
activity pattern of 24 PATs in the different tissues, overview
brenda
additional information
activity pattern of 24 PATs in the different tissues, overview
brenda
additional information
activity pattern of 24 PATs in the different tissues, overview
brenda
additional information
activity pattern of 24 PATs in the different tissues, overview
brenda
additional information
activity pattern of 24 PATs in the different tissues, overview
brenda
additional information
activity pattern of 24 PATs in the different tissues, overview
brenda
additional information
-
activity pattern of 24 PATs in the different tissues, overview
brenda
Please wait a moment until the data is sorted. This message will disappear when the data is sorted.
B3DN87, O80685, Q0WQK2, Q3EBC2, Q3EC11, Q500Z2, Q52T38, Q5M757, Q6DR03, Q7XA86, Q8L5Y5, Q8VYP5, Q8VYS8, Q93VV0, Q94C49, Q9C533, Q9FLM3, Q9LIE4, Q9LIH7, Q9M115, Q9M1K5, Q9M306, Q9SB58 -
brenda
B3DN87, O80685, Q0WQK2, Q3EBC2, Q3EC11, Q500Z2, Q52T38, Q5M757, Q6DR03, Q7XA86, Q8L5Y5, Q8VYP5, Q8VYS8, Q93VV0, Q94C49, Q9C533, Q9FLM3, Q9LIE4, Q9LIH7, Q9M115, Q9M1K5, Q9M306, Q9SB58 -
brenda
B3DN87, O80685, Q0WQK2, Q3EBC2, Q3EC11, Q500Z2, Q52T38, Q5M757, Q6DR03, Q7XA86, Q8L5Y5, Q8VYP5, Q8VYS8, Q93VV0, Q94C49, Q9C533, Q9FLM3, Q9LIE4, Q9LIH7, Q9M115, Q9M1K5, Q9M306, Q9SB58 -
brenda
B3DN87, O80685, Q0WQK2, Q3EBC2, Q3EC11, Q500Z2, Q52T38, Q5M757, Q6DR03, Q7XA86, Q8L5Y5, Q8VYP5, Q8VYS8, Q93VV0, Q94C49, Q9C533, Q9FLM3, Q9LIE4, Q9LIH7, Q9M115, Q9M1K5, Q9M306, Q9SB58 PATs are transmembrane proteins
brenda
B3DN87, O80685, Q0WQK2, Q3EBC2, Q3EC11, Q500Z2, Q52T38, Q5M757, Q6DR03, Q7XA86, Q8L5Y5, Q8VYP5, Q8VYS8, Q93VV0, Q94C49, Q9C533, Q9FLM3, Q9LIE4, Q9LIH7, Q9M115, Q9M1K5, Q9M306, Q9SB58 -
brenda
B3DN87, O80685, Q0WQK2, Q3EBC2, Q3EC11, Q500Z2, Q52T38, Q5M757, Q6DR03, Q7XA86, Q8L5Y5, Q8VYP5, Q8VYS8, Q93VV0, Q94C49, Q9C533, Q9FLM3, Q9LIE4, Q9LIH7, Q9M115, Q9M1K5, Q9M306, Q9SB58 -
brenda
B3DN87, O80685, Q0WQK2, Q3EBC2, Q3EC11, Q500Z2, Q52T38, Q5M757, Q6DR03, Q7XA86, Q8L5Y5, Q8VYP5, Q8VYS8, Q93VV0, Q94C49, Q9C533, Q9FLM3, Q9LIE4, Q9LIH7, Q9M115, Q9M1K5, Q9M306, Q9SB58 -
brenda
B3DN87, O80685, Q0WQK2, Q3EBC2, Q3EC11, Q500Z2, Q52T38, Q5M757, Q6DR03, Q7XA86, Q8L5Y5, Q8VYP5, Q8VYS8, Q93VV0, Q94C49, Q9C533, Q9FLM3, Q9LIE4, Q9LIH7, Q9M115, Q9M1K5, Q9M306, Q9SB58 -
brenda
B3DN87, O80685, Q0WQK2, Q3EBC2, Q3EC11, Q500Z2, Q52T38, Q5M757, Q6DR03, Q7XA86, Q8L5Y5, Q8VYP5, Q8VYS8, Q93VV0, Q94C49, Q9C533, Q9FLM3, Q9LIE4, Q9LIH7, Q9M115, Q9M1K5, Q9M306, Q9SB58 -
brenda
B3DN87, O80685, Q0WQK2, Q3EBC2, Q3EC11, Q500Z2, Q52T38, Q5M757, Q6DR03, Q7XA86, Q8L5Y5, Q8VYP5, Q8VYS8, Q93VV0, Q94C49, Q9C533, Q9FLM3, Q9LIE4, Q9LIH7, Q9M115, Q9M1K5, Q9M306, Q9SB58 PATs are transmembrane proteins
brenda
B3DN87, O80685, Q0WQK2, Q3EBC2, Q3EC11, Q500Z2, Q52T38, Q5M757, Q6DR03, Q7XA86, Q8L5Y5, Q8VYP5, Q8VYS8, Q93VV0, Q94C49, Q9C533, Q9FLM3, Q9LIE4, Q9LIH7, Q9M115, Q9M1K5, Q9M306, Q9SB58 -
brenda
B3DN87, O80685, Q0WQK2, Q3EBC2, Q3EC11, Q500Z2, Q52T38, Q5M757, Q6DR03, Q7XA86, Q8L5Y5, Q8VYP5, Q8VYS8, Q93VV0, Q94C49, Q9C533, Q9FLM3, Q9LIE4, Q9LIH7, Q9M115, Q9M1K5, Q9M306, Q9SB58 -
brenda
-
brenda
Golgi stack, trans-Golgi network/early endosome
brenda
Golgi, the trans-Golg network/early endosome
brenda
predominately localised in the Golgi apparatus
brenda
-
-
brenda
-
-
brenda
-
-
brenda
additional information
Arabidopsis PAT proteins display a complex targeting pattern and are detected at the endoplasmic reticulum, Golgi, endosomal compartments, and the vacuolar membrane, but most proteins are targeted to the plasma membrane
-
brenda
additional information
Arabidopsis PAT proteins display a complex targeting pattern and are detected at the endoplasmic reticulum, Golgi, endosomal compartments, and the vacuolar membrane, but most proteins are targeted to the plasma membrane
-
brenda
additional information
Arabidopsis PAT proteins display a complex targeting pattern and are detected at the endoplasmic reticulum, Golgi, endosomal compartments, and the vacuolar membrane, but most proteins are targeted to the plasma membrane
-
brenda
additional information
Arabidopsis PAT proteins display a complex targeting pattern and are detected at the endoplasmic reticulum, Golgi, endosomal compartments, and the vacuolar membrane, but most proteins are targeted to the plasma membrane
-
brenda
additional information
Arabidopsis PAT proteins display a complex targeting pattern and are detected at the endoplasmic reticulum, Golgi, endosomal compartments, and the vacuolar membrane, but most proteins are targeted to the plasma membrane
-
brenda
additional information
Arabidopsis PAT proteins display a complex targeting pattern and are detected at the endoplasmic reticulum, Golgi, endosomal compartments, and the vacuolar membrane, but most proteins are targeted to the plasma membrane
-
brenda
additional information
Arabidopsis PAT proteins display a complex targeting pattern and are detected at the endoplasmic reticulum, Golgi, endosomal compartments, and the vacuolar membrane, but most proteins are targeted to the plasma membrane
-
brenda
additional information
Arabidopsis PAT proteins display a complex targeting pattern and are detected at the endoplasmic reticulum, Golgi, endosomal compartments, and the vacuolar membrane, but most proteins are targeted to the plasma membrane
-
brenda
additional information
Arabidopsis PAT proteins display a complex targeting pattern and are detected at the endoplasmic reticulum, Golgi, endosomal compartments, and the vacuolar membrane, but most proteins are targeted to the plasma membrane
-
brenda
additional information
Arabidopsis PAT proteins display a complex targeting pattern and are detected at the endoplasmic reticulum, Golgi, endosomal compartments, and the vacuolar membrane, but most proteins are targeted to the plasma membrane
-
brenda
additional information
Arabidopsis PAT proteins display a complex targeting pattern and are detected at the endoplasmic reticulum, Golgi, endosomal compartments, and the vacuolar membrane, but most proteins are targeted to the plasma membrane
-
brenda
additional information
Arabidopsis PAT proteins display a complex targeting pattern and are detected at the endoplasmic reticulum, Golgi, endosomal compartments, and the vacuolar membrane, but most proteins are targeted to the plasma membrane
-
brenda
additional information
Arabidopsis PAT proteins display a complex targeting pattern and are detected at the endoplasmic reticulum, Golgi, endosomal compartments, and the vacuolar membrane, but most proteins are targeted to the plasma membrane
-
brenda
additional information
Arabidopsis PAT proteins display a complex targeting pattern and are detected at the endoplasmic reticulum, Golgi, endosomal compartments, and the vacuolar membrane, but most proteins are targeted to the plasma membrane
-
brenda
additional information
Arabidopsis PAT proteins display a complex targeting pattern and are detected at the endoplasmic reticulum, Golgi, endosomal compartments, and the vacuolar membrane, but most proteins are targeted to the plasma membrane
-
brenda
additional information
Arabidopsis PAT proteins display a complex targeting pattern and are detected at the endoplasmic reticulum, Golgi, endosomal compartments, and the vacuolar membrane, but most proteins are targeted to the plasma membrane
-
brenda
additional information
Arabidopsis PAT proteins display a complex targeting pattern and are detected at the endoplasmic reticulum, Golgi, endosomal compartments, and the vacuolar membrane, but most proteins are targeted to the plasma membrane
-
brenda
additional information
Arabidopsis PAT proteins display a complex targeting pattern and are detected at the endoplasmic reticulum, Golgi, endosomal compartments, and the vacuolar membrane, but most proteins are targeted to the plasma membrane
-
brenda
additional information
Arabidopsis PAT proteins display a complex targeting pattern and are detected at the endoplasmic reticulum, Golgi, endosomal compartments, and the vacuolar membrane, but most proteins are targeted to the plasma membrane
-
brenda
additional information
Arabidopsis PAT proteins display a complex targeting pattern and are detected at the endoplasmic reticulum, Golgi, endosomal compartments, and the vacuolar membrane, but most proteins are targeted to the plasma membrane
-
brenda
additional information
Arabidopsis PAT proteins display a complex targeting pattern and are detected at the endoplasmic reticulum, Golgi, endosomal compartments, and the vacuolar membrane, but most proteins are targeted to the plasma membrane
-
brenda
additional information
Arabidopsis PAT proteins display a complex targeting pattern and are detected at the endoplasmic reticulum, Golgi, endosomal compartments, and the vacuolar membrane, but most proteins are targeted to the plasma membrane
-
brenda
additional information
Arabidopsis PAT proteins display a complex targeting pattern and are detected at the endoplasmic reticulum, Golgi, endosomal compartments, and the vacuolar membrane, but most proteins are targeted to the plasma membrane
-
brenda
additional information
-
Arabidopsis PAT proteins display a complex targeting pattern and are detected at the endoplasmic reticulum, Golgi, endosomal compartments, and the vacuolar membrane, but most proteins are targeted to the plasma membrane
-
brenda
additional information
Arabidopsis PAT proteins display a complex targeting pattern and are detected at the endoplasmic reticulum, Golgi, endosomal compartments, and the vacuolar membrane, but most proteins are targeted to the plasma membrane
-
brenda
additional information
Arabidopsis PAT proteins display a complex targeting pattern and are detected at the endoplasmic reticulum, Golgi, endosomal compartments, and the vacuolar membrane, but most proteins are targeted to the plasma membrane
-
brenda
additional information
Arabidopsis PAT proteins display a complex targeting pattern and are detected at the endoplasmic reticulum, Golgi, endosomal compartments, and the vacuolar membrane, but most proteins are targeted to the plasma membrane
-
brenda
additional information
Arabidopsis PAT proteins display a complex targeting pattern and are detected at the endoplasmic reticulum, Golgi, endosomal compartments, and the vacuolar membrane, but most proteins are targeted to the plasma membrane
-
brenda
additional information
Arabidopsis PAT proteins display a complex targeting pattern and are detected at the endoplasmic reticulum, Golgi, endosomal compartments, and the vacuolar membrane, but most proteins are targeted to the plasma membrane
-
brenda
additional information
Arabidopsis PAT proteins display a complex targeting pattern and are detected at the endoplasmic reticulum, Golgi, endosomal compartments, and the vacuolar membrane, but most proteins are targeted to the plasma membrane
-
brenda
additional information
Arabidopsis PAT proteins display a complex targeting pattern and are detected at the endoplasmic reticulum, Golgi, endosomal compartments, and the vacuolar membrane, but most proteins are targeted to the plasma membrane
-
brenda
additional information
Arabidopsis PAT proteins display a complex targeting pattern and are detected at the endoplasmic reticulum, Golgi, endosomal compartments, and the vacuolar membrane, but most proteins are targeted to the plasma membrane
-
brenda
additional information
Arabidopsis PAT proteins display a complex targeting pattern and are detected at the endoplasmic reticulum, Golgi, endosomal compartments, and the vacuolar membrane, but most proteins are targeted to the plasma membrane
-
brenda
additional information
Arabidopsis PAT proteins display a complex targeting pattern and are detected at the endoplasmic reticulum, Golgi, endosomal compartments, and the vacuolar membrane, but most proteins are targeted to the plasma membrane
-
brenda
additional information
Arabidopsis PAT proteins display a complex targeting pattern and are detected at the endoplasmic reticulum, Golgi, endosomal compartments, and the vacuolar membrane, but most proteins are targeted to the plasma membrane
-
brenda
additional information
Arabidopsis PAT proteins display a complex targeting pattern and are detected at the endoplasmic reticulum, Golgi, endosomal compartments, and the vacuolar membrane, but most proteins are targeted to the plasma membrane
-
brenda
additional information
Arabidopsis PAT proteins display a complex targeting pattern and are detected at the endoplasmic reticulum, Golgi, endosomal compartments, and the vacuolar membrane, but most proteins are targeted to the plasma membrane
-
brenda
additional information
Arabidopsis PAT proteins display a complex targeting pattern and are detected at the endoplasmic reticulum, Golgi, endosomal compartments, and the vacuolar membrane, but most proteins are targeted to the plasma membrane
-
brenda
additional information
Arabidopsis PAT proteins display a complex targeting pattern and are detected at the endoplasmic reticulum, Golgi, endosomal compartments, and the vacuolar membrane, but most proteins are targeted to the plasma membrane
-
brenda
additional information
Arabidopsis PAT proteins display a complex targeting pattern and are detected at the endoplasmic reticulum, Golgi, endosomal compartments, and the vacuolar membrane, but most proteins are targeted to the plasma membrane
-
brenda
additional information
Arabidopsis PAT proteins display a complex targeting pattern and are detected at the endoplasmic reticulum, Golgi, endosomal compartments, and the vacuolar membrane, but most proteins are targeted to the plasma membrane
-
brenda
additional information
Arabidopsis PAT proteins display a complex targeting pattern and are detected at the endoplasmic reticulum, Golgi, endosomal compartments, and the vacuolar membrane, but most proteins are targeted to the plasma membrane
-
brenda
additional information
Arabidopsis PAT proteins display a complex targeting pattern and are detected at the endoplasmic reticulum, Golgi, endosomal compartments, and the vacuolar membrane, but most proteins are targeted to the plasma membrane
-
brenda
additional information
Arabidopsis PAT proteins display a complex targeting pattern and are detected at the endoplasmic reticulum, Golgi, endosomal compartments, and the vacuolar membrane, but most proteins are targeted to the plasma membrane
-
brenda
additional information
Arabidopsis PAT proteins display a complex targeting pattern and are detected at the endoplasmic reticulum, Golgi, endosomal compartments, and the vacuolar membrane, but most proteins are targeted to the plasma membrane
-
brenda
additional information
Arabidopsis PAT proteins display a complex targeting pattern and are detected at the endoplasmic reticulum, Golgi, endosomal compartments, and the vacuolar membrane, but most proteins are targeted to the plasma membrane
-
brenda
additional information
Arabidopsis PAT proteins display a complex targeting pattern and are detected at the endoplasmic reticulum, Golgi, endosomal compartments, and the vacuolar membrane, but most proteins are targeted to the plasma membrane
-
brenda
additional information
-
Arabidopsis PAT proteins display a complex targeting pattern and are detected at the endoplasmic reticulum, Golgi, endosomal compartments, and the vacuolar membrane, but most proteins are targeted to the plasma membrane
-
brenda
Please wait a moment until the data is sorted. This message will disappear when the data is sorted.
evolution
B3DN87, O80685, Q0WQK2, Q3EBC2, Q3EC11, Q500Z2, Q52T38, Q5M757, Q6DR03, Q7XA86, Q8L5Y5, Q8VYP5, Q8VYS8, Q93VV0, Q94C49, Q9C533, Q9FLM3, Q9LIE4, Q9LIH7, Q9M115, Q9M1K5, Q9M306, Q9SB58 the PAT enzymes of Arabidopsis thaliana belong to the DHHC-CRD-containing PAT family, PAT enzymes share a common structure mainly composed of four predicted transmembrane domains and a stretch of Asp-His-His-Cys, DHHC, within a Cys-rich domain
physiological function
B3DN87, O80685, Q0WQK2, Q3EBC2, Q3EC11, Q500Z2, Q52T38, Q5M757, Q6DR03, Q7XA86, Q8L5Y5, Q8VYP5, Q8VYS8, Q93VV0, Q94C49, Q9C533, Q9FLM3, Q9LIE4, Q9LIH7, Q9M115, Q9M1K5, Q9M306, Q9SB58 protein lipid modification of cysteine residues, referred to as S-palmitoylation or S-acylation, is an important secondary and reversible modification that regulates membrane association, trafficking, and function of target proteins. This enzymatic reaction is mediated by protein S-acyl transferases, PATs
evolution
B3DN87, O80685, Q0WQK2, Q3EBC2, Q3EC11, Q500Z2, Q52T38, Q5M757, Q6DR03, Q7XA86, Q8L5Y5, Q8VYP5, Q8VYS8, Q93VV0, Q94C49, Q9C533, Q9FLM3, Q9LIE4, Q9LIH7, Q9M115, Q9M1K5, Q9M306, Q9SB58 the PAT enzymes of Arabidopsis thaliana belong to the DHHC-CRD-containing PAT family, PAT enzymes share a common structure mainly composed of four predicted transmembrane domains and a stretch of Asp-His-His-Cys, DHHC, within a Cys-rich domain
evolution
TIP1 is a plant member of an evolutionarily conserved group of proteins that contains six ankyrin repeats and a DHHC-CRD and that are predicted to be integral membrane proteins
malfunction
the TIP GROWTH DEFECTIVE1 mutation affects cell growth throughout the plant and has a particularly strong effect on root hair growth. Inhibition of acylation in wild-type Arabidopsis thaliana roots by 2-bromopalmitate reproduces the Tip1- mutant phenotype
malfunction
PAT10 loss of function results in pleiotropic growth defects, including smaller leaves, dwarfism, and sterility. pat10 mutants are hypersensitive to salt stresses
malfunction
apex-associated re-positioning of nucleus during root hair elongation was impaired by PAT4 loss-of-function
metabolism
both male and female gametogenesis require a fully functional protein S-acyl transferase 21. It is possible that AtPAT21 palmitoylates one or more such proteins that are involved in the repair of SPO11-mediated double-stranded breaks during meiosis
metabolism
the enzyme is involved in lipid catabolism during early seedling growth. It affects lipid breakdown through the beta-oxidation process
physiological function
B3DN87, O80685, Q0WQK2, Q3EBC2, Q3EC11, Q500Z2, Q52T38, Q5M757, Q6DR03, Q7XA86, Q8L5Y5, Q8VYP5, Q8VYS8, Q93VV0, Q94C49, Q9C533, Q9FLM3, Q9LIE4, Q9LIH7, Q9M115, Q9M1K5, Q9M306, Q9SB58 protein lipid modification of cysteine residues, referred to as S-palmitoylation or S-acylation, is an important secondary and reversible modification that regulates membrane association, trafficking, and function of target proteins. This enzymatic reaction is mediated by protein S-acyl transferases, PATs
physiological function
S-acylation is a reversible hydrophobic protein modification that offers swift, flexible control of protein hydrophobicity and affects protein association with membranes, signal transduction, and vesicle trafficking within cells. S-acylation is essential for normal plant cell growth. TIP1 binds the acyl group palmitate and it can rescue the morphological, temperature sensitivity, and yeast casein kinase2 localization defects of the yeast S-acyl transferase mutant akr1DELTA
physiological function
disruption of PAT14 gene by T-DNA insertion results in an accelerated senescence phenotype. This coincides with increased transcript levels of some senescence-specific and pathogen-resistant marker genes. Early senescence of PAT14 mutants does not involve the signaling molecules jasmonic acid and abscisic acid, or autophagy, but associates with salicylic acid homeostasis and signaling
physiological function
functional loss of isoofrm PAT14 results in precocious leaf senescence and senescence is dependent on salicylic acid. Overexpressing PAT14 suppresses the expression of salicylic acid responsive genes. Introducing the salicylic acid deficient mutants, npr1-5 and NahG, but not other hormonal mutants, completely suppresses the precocious leaf senescence of PAT14 loss-of-function mutants
physiological function
isoform PAT10 expression partially complements the yeast akr1 PAT mutant. Loss-of function mutants have a pleiotropic phenotype involving cell expansion and division, vascular patterning, and fertility that is rescued by wild-type AtPAT10 but not by catalytically inactive mutant C192A
physiological function
isoform PAT10 plays a secondary role in root hair growth. Treatment with palmitoylation-specific inhibitor 2-bromopalmitate compromises root hair elongation and polarity and impairs the dynamic polymerization of actin microfilaments, the asymmetric plasma membrane localization of phosphatidylinositol (4,5)-bisphosphate, the dynamic distribution of RabA4b-positive post-Golgi secretion, and endocytic trafficking in root hairs
physiological function
protein palmitoylation, contributed primarily by the Golgi-localized isoform TIP1 and secondarily by protein S-acyl transferases from other endomembrane compartments, plays a key role in the polar growth of root hairs. Treatment with specific inhibitor 2-bromopalmitate compromises root hair elongation and polarity and impairs the dynamic polymerization of actin microfilaments, the asymmetric plasma membrane localization of phosphatidylinositol (4,5)-bisphosphate, the dynamic distribution of RabA4b-positive post-Golgi secretion, and endocytic trafficking in root hairs
physiological function
the enzyme mediates root hair elongation by positively regulating the membrane association of ROP2 and actin microfilament organization. It controls nucleus position during root hair tip growth
additional information
expression of AtPATs can retarget Vac8p-GFP in yeast Vac8p mutant cells, overview. Vac8p-GFP is targeted to the vacuolar membrane in wild-type cells
additional information
expression of AtPATs can retarget Vac8p-GFP in yeast Vac8p mutant cells, overview. Vac8p-GFP is targeted to the vacuolar membrane in wild-type cells
additional information
expression of AtPATs can retarget Vac8p-GFP in yeast Vac8p mutant cells, overview. Vac8p-GFP is targeted to the vacuolar membrane in wild-type cells
additional information
expression of AtPATs can retarget Vac8p-GFP in yeast Vac8p mutant cells, overview. Vac8p-GFP is targeted to the vacuolar membrane in wild-type cells
additional information
expression of AtPATs can retarget Vac8p-GFP in yeast Vac8p mutant cells, overview. Vac8p-GFP is targeted to the vacuolar membrane in wild-type cells
additional information
expression of AtPATs can retarget Vac8p-GFP in yeast Vac8p mutant cells, overview. Vac8p-GFP is targeted to the vacuolar membrane in wild-type cells
additional information
expression of AtPATs can retarget Vac8p-GFP in yeast Vac8p mutant cells, overview. Vac8p-GFP is targeted to the vacuolar membrane in wild-type cells
additional information
expression of AtPATs can retarget Vac8p-GFP in yeast Vac8p mutant cells, overview. Vac8p-GFP is targeted to the vacuolar membrane in wild-type cells
additional information
expression of AtPATs can retarget Vac8p-GFP in yeast Vac8p mutant cells, overview. Vac8p-GFP is targeted to the vacuolar membrane in wild-type cells
additional information
expression of AtPATs can retarget Vac8p-GFP in yeast Vac8p mutant cells, overview. Vac8p-GFP is targeted to the vacuolar membrane in wild-type cells
additional information
expression of AtPATs can retarget Vac8p-GFP in yeast Vac8p mutant cells, overview. Vac8p-GFP is targeted to the vacuolar membrane in wild-type cells
additional information
expression of AtPATs can retarget Vac8p-GFP in yeast Vac8p mutant cells, overview. Vac8p-GFP is targeted to the vacuolar membrane in wild-type cells
additional information
expression of AtPATs can retarget Vac8p-GFP in yeast Vac8p mutant cells, overview. Vac8p-GFP is targeted to the vacuolar membrane in wild-type cells
additional information
expression of AtPATs can retarget Vac8p-GFP in yeast Vac8p mutant cells, overview. Vac8p-GFP is targeted to the vacuolar membrane in wild-type cells
additional information
expression of AtPATs can retarget Vac8p-GFP in yeast Vac8p mutant cells, overview. Vac8p-GFP is targeted to the vacuolar membrane in wild-type cells
additional information
expression of AtPATs can retarget Vac8p-GFP in yeast Vac8p mutant cells, overview. Vac8p-GFP is targeted to the vacuolar membrane in wild-type cells
additional information
expression of AtPATs can retarget Vac8p-GFP in yeast Vac8p mutant cells, overview. Vac8p-GFP is targeted to the vacuolar membrane in wild-type cells
additional information
expression of AtPATs can retarget Vac8p-GFP in yeast Vac8p mutant cells, overview. Vac8p-GFP is targeted to the vacuolar membrane in wild-type cells
additional information
expression of AtPATs can retarget Vac8p-GFP in yeast Vac8p mutant cells, overview. Vac8p-GFP is targeted to the vacuolar membrane in wild-type cells
additional information
expression of AtPATs can retarget Vac8p-GFP in yeast Vac8p mutant cells, overview. Vac8p-GFP is targeted to the vacuolar membrane in wild-type cells
additional information
expression of AtPATs can retarget Vac8p-GFP in yeast Vac8p mutant cells, overview. Vac8p-GFP is targeted to the vacuolar membrane in wild-type cells
additional information
expression of AtPATs can retarget Vac8p-GFP in yeast Vac8p mutant cells, overview. Vac8p-GFP is targeted to the vacuolar membrane in wild-type cells
additional information
expression of AtPATs can retarget Vac8p-GFP in yeast Vac8p mutant cells, overview. Vac8p-GFP is targeted to the vacuolar membrane in wild-type cells
additional information
-
expression of AtPATs can retarget Vac8p-GFP in yeast Vac8p mutant cells, overview. Vac8p-GFP is targeted to the vacuolar membrane in wild-type cells
additional information
expression of AtPATs can retarget Vac8p-GFP in yeast Vac8p mutant cells, overview. Vac8p-GFP is targeted to the vacuolar membrane in wild-type cells
additional information
expression of AtPATs can retarget Vac8p-GFP in yeast Vac8p mutant cells, overview. Vac8p-GFP is targeted to the vacuolar membrane in wild-type cells
additional information
expression of AtPATs can retarget Vac8p-GFP in yeast Vac8p mutant cells, overview. Vac8p-GFP is targeted to the vacuolar membrane in wild-type cells
additional information
expression of AtPATs can retarget Vac8p-GFP in yeast Vac8p mutant cells, overview. Vac8p-GFP is targeted to the vacuolar membrane in wild-type cells
additional information
expression of AtPATs can retarget Vac8p-GFP in yeast Vac8p mutant cells, overview. Vac8p-GFP is targeted to the vacuolar membrane in wild-type cells
additional information
expression of AtPATs can retarget Vac8p-GFP in yeast Vac8p mutant cells, overview. Vac8p-GFP is targeted to the vacuolar membrane in wild-type cells
additional information
expression of AtPATs can retarget Vac8p-GFP in yeast Vac8p mutant cells, overview. Vac8p-GFP is targeted to the vacuolar membrane in wild-type cells
additional information
expression of AtPATs can retarget Vac8p-GFP in yeast Vac8p mutant cells, overview. Vac8p-GFP is targeted to the vacuolar membrane in wild-type cells
additional information
expression of AtPATs can retarget Vac8p-GFP in yeast Vac8p mutant cells, overview. Vac8p-GFP is targeted to the vacuolar membrane in wild-type cells
additional information
expression of AtPATs can retarget Vac8p-GFP in yeast Vac8p mutant cells, overview. Vac8p-GFP is targeted to the vacuolar membrane in wild-type cells
additional information
expression of AtPATs can retarget Vac8p-GFP in yeast Vac8p mutant cells, overview. Vac8p-GFP is targeted to the vacuolar membrane in wild-type cells
additional information
expression of AtPATs can retarget Vac8p-GFP in yeast Vac8p mutant cells, overview. Vac8p-GFP is targeted to the vacuolar membrane in wild-type cells
additional information
expression of AtPATs can retarget Vac8p-GFP in yeast Vac8p mutant cells, overview. Vac8p-GFP is targeted to the vacuolar membrane in wild-type cells
additional information
expression of AtPATs can retarget Vac8p-GFP in yeast Vac8p mutant cells, overview. Vac8p-GFP is targeted to the vacuolar membrane in wild-type cells
additional information
expression of AtPATs can retarget Vac8p-GFP in yeast Vac8p mutant cells, overview. Vac8p-GFP is targeted to the vacuolar membrane in wild-type cells
additional information
expression of AtPATs can retarget Vac8p-GFP in yeast Vac8p mutant cells, overview. Vac8p-GFP is targeted to the vacuolar membrane in wild-type cells
additional information
expression of AtPATs can retarget Vac8p-GFP in yeast Vac8p mutant cells, overview. Vac8p-GFP is targeted to the vacuolar membrane in wild-type cells
additional information
expression of AtPATs can retarget Vac8p-GFP in yeast Vac8p mutant cells, overview. Vac8p-GFP is targeted to the vacuolar membrane in wild-type cells
additional information
expression of AtPATs can retarget Vac8p-GFP in yeast Vac8p mutant cells, overview. Vac8p-GFP is targeted to the vacuolar membrane in wild-type cells
additional information
expression of AtPATs can retarget Vac8p-GFP in yeast Vac8p mutant cells, overview. Vac8p-GFP is targeted to the vacuolar membrane in wild-type cells
additional information
expression of AtPATs can retarget Vac8p-GFP in yeast Vac8p mutant cells, overview. Vac8p-GFP is targeted to the vacuolar membrane in wild-type cells
additional information
expression of AtPATs can retarget Vac8p-GFP in yeast Vac8p mutant cells, overview. Vac8p-GFP is targeted to the vacuolar membrane in wild-type cells
additional information
expression of AtPATs can retarget Vac8p-GFP in yeast Vac8p mutant cells, overview. Vac8p-GFP is targeted to the vacuolar membrane in wild-type cells
additional information
-
expression of AtPATs can retarget Vac8p-GFP in yeast Vac8p mutant cells, overview. Vac8p-GFP is targeted to the vacuolar membrane in wild-type cells
additional information
TIP1 encodes an ankyrin repeat protein with a DHHC Cys-rich domain
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additional information
identification of conserved sequence motifs within Arabidopsis PATs, e.g. the central DHHC-CRD domain, overview. The DHHC motif within the central region is always located to the vicinity of the C-terminal transmembrane domains. Protein topology of Arabidopsis PATs, overview
additional information
identification of conserved sequence motifs within Arabidopsis PATs, e.g. the central DHHC-CRD domain, overview. The DHHC motif within the central region is always located to the vicinity of the C-terminal transmembrane domains. Protein topology of Arabidopsis PATs, overview
additional information
identification of conserved sequence motifs within Arabidopsis PATs, e.g. the central DHHC-CRD domain, overview. The DHHC motif within the central region is always located to the vicinity of the C-terminal transmembrane domains. Protein topology of Arabidopsis PATs, overview
additional information
identification of conserved sequence motifs within Arabidopsis PATs, e.g. the central DHHC-CRD domain, overview. The DHHC motif within the central region is always located to the vicinity of the C-terminal transmembrane domains. Protein topology of Arabidopsis PATs, overview
additional information
identification of conserved sequence motifs within Arabidopsis PATs, e.g. the central DHHC-CRD domain, overview. The DHHC motif within the central region is always located to the vicinity of the C-terminal transmembrane domains. Protein topology of Arabidopsis PATs, overview
additional information
identification of conserved sequence motifs within Arabidopsis PATs, e.g. the central DHHC-CRD domain, overview. The DHHC motif within the central region is always located to the vicinity of the C-terminal transmembrane domains. Protein topology of Arabidopsis PATs, overview
additional information
identification of conserved sequence motifs within Arabidopsis PATs, e.g. the central DHHC-CRD domain, overview. The DHHC motif within the central region is always located to the vicinity of the C-terminal transmembrane domains. Protein topology of Arabidopsis PATs, overview
additional information
identification of conserved sequence motifs within Arabidopsis PATs, e.g. the central DHHC-CRD domain, overview. The DHHC motif within the central region is always located to the vicinity of the C-terminal transmembrane domains. Protein topology of Arabidopsis PATs, overview
additional information
identification of conserved sequence motifs within Arabidopsis PATs, e.g. the central DHHC-CRD domain, overview. The DHHC motif within the central region is always located to the vicinity of the C-terminal transmembrane domains. Protein topology of Arabidopsis PATs, overview
additional information
identification of conserved sequence motifs within Arabidopsis PATs, e.g. the central DHHC-CRD domain, overview. The DHHC motif within the central region is always located to the vicinity of the C-terminal transmembrane domains. Protein topology of Arabidopsis PATs, overview
additional information
identification of conserved sequence motifs within Arabidopsis PATs, e.g. the central DHHC-CRD domain, overview. The DHHC motif within the central region is always located to the vicinity of the C-terminal transmembrane domains. Protein topology of Arabidopsis PATs, overview
additional information
identification of conserved sequence motifs within Arabidopsis PATs, e.g. the central DHHC-CRD domain, overview. The DHHC motif within the central region is always located to the vicinity of the C-terminal transmembrane domains. Protein topology of Arabidopsis PATs, overview
additional information
identification of conserved sequence motifs within Arabidopsis PATs, e.g. the central DHHC-CRD domain, overview. The DHHC motif within the central region is always located to the vicinity of the C-terminal transmembrane domains. Protein topology of Arabidopsis PATs, overview
additional information
identification of conserved sequence motifs within Arabidopsis PATs, e.g. the central DHHC-CRD domain, overview. The DHHC motif within the central region is always located to the vicinity of the C-terminal transmembrane domains. Protein topology of Arabidopsis PATs, overview
additional information
identification of conserved sequence motifs within Arabidopsis PATs, e.g. the central DHHC-CRD domain, overview. The DHHC motif within the central region is always located to the vicinity of the C-terminal transmembrane domains. Protein topology of Arabidopsis PATs, overview
additional information
identification of conserved sequence motifs within Arabidopsis PATs, e.g. the central DHHC-CRD domain, overview. The DHHC motif within the central region is always located to the vicinity of the C-terminal transmembrane domains. Protein topology of Arabidopsis PATs, overview
additional information
identification of conserved sequence motifs within Arabidopsis PATs, e.g. the central DHHC-CRD domain, overview. The DHHC motif within the central region is always located to the vicinity of the C-terminal transmembrane domains. Protein topology of Arabidopsis PATs, overview
additional information
identification of conserved sequence motifs within Arabidopsis PATs, e.g. the central DHHC-CRD domain, overview. The DHHC motif within the central region is always located to the vicinity of the C-terminal transmembrane domains. Protein topology of Arabidopsis PATs, overview
additional information
identification of conserved sequence motifs within Arabidopsis PATs, e.g. the central DHHC-CRD domain, overview. The DHHC motif within the central region is always located to the vicinity of the C-terminal transmembrane domains. Protein topology of Arabidopsis PATs, overview
additional information
identification of conserved sequence motifs within Arabidopsis PATs, e.g. the central DHHC-CRD domain, overview. The DHHC motif within the central region is always located to the vicinity of the C-terminal transmembrane domains. Protein topology of Arabidopsis PATs, overview
additional information
identification of conserved sequence motifs within Arabidopsis PATs, e.g. the central DHHC-CRD domain, overview. The DHHC motif within the central region is always located to the vicinity of the C-terminal transmembrane domains. Protein topology of Arabidopsis PATs, overview
additional information
identification of conserved sequence motifs within Arabidopsis PATs, e.g. the central DHHC-CRD domain, overview. The DHHC motif within the central region is always located to the vicinity of the C-terminal transmembrane domains. Protein topology of Arabidopsis PATs, overview
additional information
identification of conserved sequence motifs within Arabidopsis PATs, e.g. the central DHHC-CRD domain, overview. The DHHC motif within the central region is always located to the vicinity of the C-terminal transmembrane domains. Protein topology of Arabidopsis PATs, overview
additional information
-
identification of conserved sequence motifs within Arabidopsis PATs, e.g. the central DHHC-CRD domain, overview. The DHHC motif within the central region is always located to the vicinity of the C-terminal transmembrane domains. Protein topology of Arabidopsis PATs, overview
additional information
identification of conserved sequence motifs within Arabidopsis PATs, e.g. the central DHHC-CRD domain, overview. The DHHC motif within the central region is always located to the vicinity of the C-terminal transmembrane domains. Protein topology of Arabidopsis PATs, overview
additional information
identification of conserved sequence motifs within Arabidopsis PATs, e.g. the central DHHC-CRD domain, overview. The DHHC motif within the central region is always located to the vicinity of the C-terminal transmembrane domains. Protein topology of Arabidopsis PATs, overview
additional information
identification of conserved sequence motifs within Arabidopsis PATs, e.g. the central DHHC-CRD domain, overview. The DHHC motif within the central region is always located to the vicinity of the C-terminal transmembrane domains. Protein topology of Arabidopsis PATs, overview
additional information
identification of conserved sequence motifs within Arabidopsis PATs, e.g. the central DHHC-CRD domain, overview. The DHHC motif within the central region is always located to the vicinity of the C-terminal transmembrane domains. Protein topology of Arabidopsis PATs, overview
additional information
identification of conserved sequence motifs within Arabidopsis PATs, e.g. the central DHHC-CRD domain, overview. The DHHC motif within the central region is always located to the vicinity of the C-terminal transmembrane domains. Protein topology of Arabidopsis PATs, overview
additional information
identification of conserved sequence motifs within Arabidopsis PATs, e.g. the central DHHC-CRD domain, overview. The DHHC motif within the central region is always located to the vicinity of the C-terminal transmembrane domains. Protein topology of Arabidopsis PATs, overview
additional information
identification of conserved sequence motifs within Arabidopsis PATs, e.g. the central DHHC-CRD domain, overview. The DHHC motif within the central region is always located to the vicinity of the C-terminal transmembrane domains. Protein topology of Arabidopsis PATs, overview
additional information
identification of conserved sequence motifs within Arabidopsis PATs, e.g. the central DHHC-CRD domain, overview. The DHHC motif within the central region is always located to the vicinity of the C-terminal transmembrane domains. Protein topology of Arabidopsis PATs, overview
additional information
identification of conserved sequence motifs within Arabidopsis PATs, e.g. the central DHHC-CRD domain, overview. The DHHC motif within the central region is always located to the vicinity of the C-terminal transmembrane domains. Protein topology of Arabidopsis PATs, overview
additional information
identification of conserved sequence motifs within Arabidopsis PATs, e.g. the central DHHC-CRD domain, overview. The DHHC motif within the central region is always located to the vicinity of the C-terminal transmembrane domains. Protein topology of Arabidopsis PATs, overview
additional information
identification of conserved sequence motifs within Arabidopsis PATs, e.g. the central DHHC-CRD domain, overview. The DHHC motif within the central region is always located to the vicinity of the C-terminal transmembrane domains. Protein topology of Arabidopsis PATs, overview
additional information
identification of conserved sequence motifs within Arabidopsis PATs, e.g. the central DHHC-CRD domain, overview. The DHHC motif within the central region is always located to the vicinity of the C-terminal transmembrane domains. Protein topology of Arabidopsis PATs, overview
additional information
identification of conserved sequence motifs within Arabidopsis PATs, e.g. the central DHHC-CRD domain, overview. The DHHC motif within the central region is always located to the vicinity of the C-terminal transmembrane domains. Protein topology of Arabidopsis PATs, overview
additional information
identification of conserved sequence motifs within Arabidopsis PATs, e.g. the central DHHC-CRD domain, overview. The DHHC motif within the central region is always located to the vicinity of the C-terminal transmembrane domains. Protein topology of Arabidopsis PATs, overview
additional information
identification of conserved sequence motifs within Arabidopsis PATs, e.g. the central DHHC-CRD domain, overview. The DHHC motif within the central region is always located to the vicinity of the C-terminal transmembrane domains. Protein topology of Arabidopsis PATs, overview
additional information
identification of conserved sequence motifs within Arabidopsis PATs, e.g. the central DHHC-CRD domain, overview. The DHHC motif within the central region is always located to the vicinity of the C-terminal transmembrane domains. Protein topology of Arabidopsis PATs, overview
additional information
identification of conserved sequence motifs within Arabidopsis PATs, e.g. the central DHHC-CRD domain, overview. The DHHC motif within the central region is always located to the vicinity of the C-terminal transmembrane domains. Protein topology of Arabidopsis PATs, overview
additional information
identification of conserved sequence motifs within Arabidopsis PATs, e.g. the central DHHC-CRD domain, overview. The DHHC motif within the central region is always located to the vicinity of the C-terminal transmembrane domains. Protein topology of Arabidopsis PATs, overview
additional information
identification of conserved sequence motifs within Arabidopsis PATs, e.g. the central DHHC-CRD domain, overview. The DHHC motif within the central region is always located to the vicinity of the C-terminal transmembrane domains. Protein topology of Arabidopsis PATs, overview
additional information
identification of conserved sequence motifs within Arabidopsis PATs, e.g. the central DHHC-CRD domain, overview. The DHHC motif within the central region is always located to the vicinity of the C-terminal transmembrane domains. Protein topology of Arabidopsis PATs, overview
additional information
identification of conserved sequence motifs within Arabidopsis PATs, e.g. the central DHHC-CRD domain, overview. The DHHC motif within the central region is always located to the vicinity of the C-terminal transmembrane domains. Protein topology of Arabidopsis PATs, overview
additional information
identification of conserved sequence motifs within Arabidopsis PATs, e.g. the central DHHC-CRD domain, overview. The DHHC motif within the central region is always located to the vicinity of the C-terminal transmembrane domains. Protein topology of Arabidopsis PATs, overview
additional information
identification of conserved sequence motifs within Arabidopsis PATs, e.g. the central DHHC-CRD domain, overview. The DHHC motif within the central region is always located to the vicinity of the C-terminal transmembrane domains. Protein topology of Arabidopsis PATs, overview
additional information
-
identification of conserved sequence motifs within Arabidopsis PATs, e.g. the central DHHC-CRD domain, overview. The DHHC motif within the central region is always located to the vicinity of the C-terminal transmembrane domains. Protein topology of Arabidopsis PATs, overview
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C157S
mutation in DHHC motif, mutant is not able to complement a yeast akr1 mutant strain
C192A
mutation in the DHHC motif, loss of autoacylation capacity and the ability to complement a yeast akr1 mutant
additional information
complementation of the Vac8 protein localization to the vacuolar membrane in mutant yeast cells by Arabidopsis PATs
additional information
complementation of the Vac8 protein localization to the vacuolar membrane in mutant yeast cells by Arabidopsis PATs
additional information
complementation of the Vac8 protein localization to the vacuolar membrane in mutant yeast cells by Arabidopsis PATs
additional information
complementation of the Vac8 protein localization to the vacuolar membrane in mutant yeast cells by Arabidopsis PATs
additional information
complementation of the Vac8 protein localization to the vacuolar membrane in mutant yeast cells by Arabidopsis PATs
additional information
complementation of the Vac8 protein localization to the vacuolar membrane in mutant yeast cells by Arabidopsis PATs
additional information
complementation of the Vac8 protein localization to the vacuolar membrane in mutant yeast cells by Arabidopsis PATs
additional information
complementation of the Vac8 protein localization to the vacuolar membrane in mutant yeast cells by Arabidopsis PATs
additional information
complementation of the Vac8 protein localization to the vacuolar membrane in mutant yeast cells by Arabidopsis PATs
additional information
complementation of the Vac8 protein localization to the vacuolar membrane in mutant yeast cells by Arabidopsis PATs
additional information
complementation of the Vac8 protein localization to the vacuolar membrane in mutant yeast cells by Arabidopsis PATs
additional information
complementation of the Vac8 protein localization to the vacuolar membrane in mutant yeast cells by Arabidopsis PATs
additional information
complementation of the Vac8 protein localization to the vacuolar membrane in mutant yeast cells by Arabidopsis PATs
additional information
complementation of the Vac8 protein localization to the vacuolar membrane in mutant yeast cells by Arabidopsis PATs
additional information
complementation of the Vac8 protein localization to the vacuolar membrane in mutant yeast cells by Arabidopsis PATs
additional information
complementation of the Vac8 protein localization to the vacuolar membrane in mutant yeast cells by Arabidopsis PATs
additional information
complementation of the Vac8 protein localization to the vacuolar membrane in mutant yeast cells by Arabidopsis PATs
additional information
complementation of the Vac8 protein localization to the vacuolar membrane in mutant yeast cells by Arabidopsis PATs
additional information
complementation of the Vac8 protein localization to the vacuolar membrane in mutant yeast cells by Arabidopsis PATs
additional information
complementation of the Vac8 protein localization to the vacuolar membrane in mutant yeast cells by Arabidopsis PATs
additional information
complementation of the Vac8 protein localization to the vacuolar membrane in mutant yeast cells by Arabidopsis PATs
additional information
complementation of the Vac8 protein localization to the vacuolar membrane in mutant yeast cells by Arabidopsis PATs
additional information
complementation of the Vac8 protein localization to the vacuolar membrane in mutant yeast cells by Arabidopsis PATs
additional information
-
complementation of the Vac8 protein localization to the vacuolar membrane in mutant yeast cells by Arabidopsis PATs
additional information
complementation of the Vac8 protein localization to the vacuolar membrane in mutant yeast cells by Arabidopsis PATs
additional information
complementation of the Vac8 protein localization to the vacuolar membrane in mutant yeast cells by Arabidopsis PATs
additional information
complementation of the Vac8 protein localization to the vacuolar membrane in mutant yeast cells by Arabidopsis PATs
additional information
complementation of the Vac8 protein localization to the vacuolar membrane in mutant yeast cells by Arabidopsis PATs
additional information
complementation of the Vac8 protein localization to the vacuolar membrane in mutant yeast cells by Arabidopsis PATs
additional information
complementation of the Vac8 protein localization to the vacuolar membrane in mutant yeast cells by Arabidopsis PATs
additional information
complementation of the Vac8 protein localization to the vacuolar membrane in mutant yeast cells by Arabidopsis PATs
additional information
complementation of the Vac8 protein localization to the vacuolar membrane in mutant yeast cells by Arabidopsis PATs
additional information
complementation of the Vac8 protein localization to the vacuolar membrane in mutant yeast cells by Arabidopsis PATs
additional information
complementation of the Vac8 protein localization to the vacuolar membrane in mutant yeast cells by Arabidopsis PATs
additional information
complementation of the Vac8 protein localization to the vacuolar membrane in mutant yeast cells by Arabidopsis PATs
additional information
complementation of the Vac8 protein localization to the vacuolar membrane in mutant yeast cells by Arabidopsis PATs
additional information
complementation of the Vac8 protein localization to the vacuolar membrane in mutant yeast cells by Arabidopsis PATs
additional information
complementation of the Vac8 protein localization to the vacuolar membrane in mutant yeast cells by Arabidopsis PATs
additional information
complementation of the Vac8 protein localization to the vacuolar membrane in mutant yeast cells by Arabidopsis PATs
additional information
complementation of the Vac8 protein localization to the vacuolar membrane in mutant yeast cells by Arabidopsis PATs
additional information
complementation of the Vac8 protein localization to the vacuolar membrane in mutant yeast cells by Arabidopsis PATs
additional information
complementation of the Vac8 protein localization to the vacuolar membrane in mutant yeast cells by Arabidopsis PATs
additional information
complementation of the Vac8 protein localization to the vacuolar membrane in mutant yeast cells by Arabidopsis PATs
additional information
complementation of the Vac8 protein localization to the vacuolar membrane in mutant yeast cells by Arabidopsis PATs
additional information
complementation of the Vac8 protein localization to the vacuolar membrane in mutant yeast cells by Arabidopsis PATs
additional information
complementation of the Vac8 protein localization to the vacuolar membrane in mutant yeast cells by Arabidopsis PATs
additional information
complementation of the Vac8 protein localization to the vacuolar membrane in mutant yeast cells by Arabidopsis PATs
additional information
-
complementation of the Vac8 protein localization to the vacuolar membrane in mutant yeast cells by Arabidopsis PATs
additional information
generation of tip1-1, tip1-2, and tip1-3 mutants, overview. Several stable transformants carrying Pro35S:TIP1 have significantly longer root hairs than does the wild-type, phenotype, overview
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Hemsley, P. A.; Kemp, A. C.; Grierson, C. S.
The TIP GROWTH DEFECTIVE1 S-acyl transferase regulates plant cell growth in Arabidopsis
Plant Cell
17
2554-2563
2005
Arabidopsis thaliana (Q52T38)
brenda
Batistic, O.
Genomics and localization of the Arabidopsis DHHC-CRD S-acyltransferase protein family
Plant Physiol.
160
1597-1612
2012
Arabidopsis thaliana (B3DN87), Arabidopsis thaliana (O80685), Arabidopsis thaliana (Q0WQK2), Arabidopsis thaliana (Q3EBC2), Arabidopsis thaliana (Q3EC11), Arabidopsis thaliana (Q500Z2), Arabidopsis thaliana (Q52T38), Arabidopsis thaliana (Q5M757), Arabidopsis thaliana (Q6DR03), Arabidopsis thaliana (Q7XA86), Arabidopsis thaliana (Q8L5Y5), Arabidopsis thaliana (Q8VYP5), Arabidopsis thaliana (Q8VYS8), Arabidopsis thaliana (Q93VV0), Arabidopsis thaliana (Q94C49), Arabidopsis thaliana (Q9C533), Arabidopsis thaliana (Q9FLM3), Arabidopsis thaliana (Q9LIE4), Arabidopsis thaliana (Q9LIH7), Arabidopsis thaliana (Q9M115), Arabidopsis thaliana (Q9M1K5), Arabidopsis thaliana (Q9M306), Arabidopsis thaliana (Q9SB58), Arabidopsis thaliana
brenda
Zhou, L.Z.; Li, S.; Feng, Q.N.; Zhang, Y.L.; Zhao, X.; Zeng, Y.L.; Wang, H.; Jiang, L.; Zhang, Y.
Protein S-acyl transferase10 is critical for development and salt tolerance in Arabidopsis
Plant Cell
25
1093-1107
2013
Arabidopsis thaliana (Q7XA86), Arabidopsis thaliana
brenda
Zhang, Y.L.; Li, E.; Feng, Q.N.; Zhao, X.Y.; Ge, F.R.; Zhang, Y.; Li, S.
Protein palmitoylation is critical for the polar growth of root hairs in Arabidopsis
BMC Plant Biol.
15
50
2015
Arabidopsis thaliana (Q52T38), Arabidopsis thaliana (Q7XA86)
brenda
Qi, B.; Doughty, J.; Hooley, R.
A Golgi and tonoplast localized S-acyl transferase is involved in cell expansion, cell division, vascular patterning and fertility in Arabidopsis
New Phytol.
200
444-456
2013
Arabidopsis thaliana (Q7XA86)
brenda
Li, Y.; Scott, R.; Doughty, J.; Grant, M.; Qi, B.
Protein S-acyltransferase 14: a specific role for palmitoylation in leaf senescence in Arabidopsis
Plant Physiol.
170
415-428
2016
Arabidopsis thaliana (Q8VYP5)
brenda
Zhao, X.Y.; Wang, J.G.; Song, S.J.; Wang, Q.; Kang, H.; Zhang, Y.; Li, S.
Precocious leaf senescence by functional loss of PROTEIN S-ACYL TRANSFERASE14 involves the NPR1-dependent salicylic acid signaling
Sci. Rep.
6
20309
2016
Arabidopsis thaliana (Q8VYP5)
brenda
Li, Y.; Xu, J.; Li, G.; Wan, S.; Batistic, O.; Sun, M.; Zhang, Y.; Scott, R.; Qi, B.
Protein S-acyl transferase 15 is involved in seed triacylglycerol catabolism during early seedling growth in Arabidopsis
J. Exp. Bot.
70
5205-5216
2019
Arabidopsis thaliana (Q500Z2)
brenda
Li, Y.; Li, H.J.; Morgan, C.; Bomblies, K.; Yang, W.; Qi, B.
Both male and female gametogenesis require a fully functional protein S-acyl transferase 21 in Arabidopsis thaliana
Plant J.
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754-767
2019
Arabidopsis thaliana (Q6DR03)
brenda
Wan, Z.Y.; Zhang, Y.; Li, S.
Protein S-acyl transferase 4 controls nucleus position during root hair tip growth
Plant Signal. Behav.
12
e1311438
2017
Arabidopsis thaliana (Q9C744)
brenda