| BBa_K4799000 |
pAtRCD1 |
Promoter |
AtRCD1/AT1G32230 |
1308 |
A gene belonging to the (ADP-ribosyl)transferase domain-containing subfamily of WWE
protein-protein interaction domain
protein family. This gene could respone to stress treatment like oxidative stress. |
| BBa_K4799001 |
pAtSRO1 |
Promoter |
AtSRO1/AT2G35510 |
1957 |
AtSRO1 refers to the SIMILAR TO RCD-ONE 1 protein in the plant Arabidopsis thaliana.
AtSRO1 is a member of the SRO
protein family, which plays important roles in regulating oxidation and metal ion
metabolism in plants. AtSRO1 is
involved in plant responses to osmotic and oxidative stress. Mutations in the AtSRO1
gene can result in various
phenotypic defects, including sensitivity to reactive oxygen species, as well as
developmental abnormalities in roots
and reproductive processes. |
| BBa_K4799999 |
pNaNRAMP5 |
Promoter |
NaNRAMP5/A4A49_31503 |
2062 |
"NaNRAMP5 is a natural resistance-associated macrophage protein gene found in Nicotiana
attenuata. It encodes a protein
involved in the transport of various metal ions, including iron, manganese, zinc, and
cadmium. NaNRAMP5 is highly
expressed in the roots and leaves of N. attenuata plants. It plays a crucial role in
maintaining metal homeostasis in
the plant and is important for the uptake and distribution of essential metals.
|
| BBa_K4799500 |
pZmPT7 |
Promoter |
ZmPT7/Zm00001eb222510 |
2010 |
The pZmPT7 gene is a phosphate transporter gene found in maize (Zea mays L.). It plays a
crucial role in the uptake and
redistribution of phosphate in maize plants. The gene is mainly expressed in roots and
mature leaves, and its expression
is up-regulated during phosphate starvation. |
| BBa_K4799501 |
pZmSRO1b |
Promoter |
ZmSRO1b/Zm00001d014423 |
2000 |
Plant SRO (SIMILAR TO RCD-ONE) proteins play important roles in regulating oxidation and
metal ion metabolism. ZmSRO1b
is a gene from maize. |
| BBa_K4799502 |
pNtNRAMP2 |
Promoter |
NtNRAMP2/XP_016477061 |
2000 |
NtNRAMP2 is a gene found in tobacco plants that encodes a protein involved in the
transport of metal ions, including
iron (Fe) and cadmium (Cd), from vacuoles to the cytoplasm. |
| BBa_K4799503 |
pNtNRAMP3 |
Promoter |
NtNRAMP3/NP_001312209 |
2001 |
NtNRAMP3 is a gene found in tobacco plants that is involved in the transport of metal
ions, including cadmium, from
vacuoles to the cytoplasm, potentially influencing the plant's tolerance and
accumulation of cadmium. |
| BBa_K4799002 |
pNtNRAMP5 |
Promoter |
NtNRAMP5/XP_016434268 |
2005 |
NtNRAMP5 is a gene in tobacco (Nicotiana tabacum) that encodes for a protein involved in
the transport of manganese (Mn)
and cadmium (Cd). It belongs to the natural resistance-associated macrophage proteins
(NRAMP) family, which are integral
membrane proteins found in various organisms. The allelic variation in NtNRAMP5 has been
shown to be associated with
differences in Cd and Mn accumulation among tobacco cultivars. |
| BBa_K4799504 |
pNtNRAMP6 |
Promoter |
NtNRAMP6/XP_016480878 |
2001 |
NtNRAMP6 is a gene in tobacco that is involved in cadmium transport and tolerance. |
| BBa_K4799505 |
pNtCCX2 |
Promoter |
NtCCX2/XM_016577905 |
1980 |
NtCCX2 gene in tobacco in response to cadmium and other stresses. |
| BBa_K4799990 |
pAtMRP3 |
Promoter |
AtMRP3/At3g13080 |
2001 |
AtMRP3 is a gene that codes for a protein called ATP-binding cassette transporter MRP3
in Arabidopsis thaliana. This
protein is involved in the transport of heavy metals, such as cadmium, within the plant.
It is part of a subfamily of
ABC transporters called AtMRPs, which are thought to play a role in heavy metal
detoxification and sequestration in
vacuoles. AtMRP3 is specifically induced in the roots of Arabidopsis plants after
exposure to cadmium, and its
expression levels can be used as an indicator of heavy metal stress. |
| BBa_K4799989 |
pAtPCR2 |
Promoter |
AtPCR2/AT1G14870 |
2005 |
The AtPCR2 gene, or "Arabidopsis thaliana plant cadmium resistance 2" gene, is found in
the model plant species
Arabidopsis thaliana. This gene is capable of providing resistance to cadmium, a toxic
heavy metal, which normally would
accumulate in leaves and cause phytotoxic effect on plants, such as change in
chloroplast structure and mass production
of reactive oxygen species, followed by oxidative stress and eventual cell death. |
| BBa_K4799506 |
pAtMT1a |
Promoter |
AtMT1a/NC_003070 |
1147 |
AtMT1a is a promoter reported could be induced by heavy metal treatment in a patent:
CN103923923B. |
| BBa_K4799507 |
GUS |
CDS |
GUS |
2023 |
β-glucuronidase, codon-optimized Staphylococcus gusA gene with a catalase intron to
ensure expression in plants but not
bacteria. |
| BBa_K4799508 |
EGFP |
CDS |
EGFP |
720 |
enhanced GFP |
| BBa_K4799509 |
NOS_terminator |
Terminator |
NOS |
253 |
NOS terminator |
